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WO2021060904A1 - Method and device for performing communication in wireless communication system - Google Patents

Method and device for performing communication in wireless communication system Download PDF

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Publication number
WO2021060904A1
WO2021060904A1 PCT/KR2020/013034 KR2020013034W WO2021060904A1 WO 2021060904 A1 WO2021060904 A1 WO 2021060904A1 KR 2020013034 W KR2020013034 W KR 2020013034W WO 2021060904 A1 WO2021060904 A1 WO 2021060904A1
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WO
WIPO (PCT)
Prior art keywords
information
radio capability
terminal
radio
mme
Prior art date
Application number
PCT/KR2020/013034
Other languages
French (fr)
Korean (ko)
Inventor
서경주
Original Assignee
삼성전자 주식회사
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from KR1020190120129A external-priority patent/KR102242702B1/en
Application filed by 삼성전자 주식회사 filed Critical 삼성전자 주식회사
Priority to US17/764,148 priority Critical patent/US20220338071A1/en
Priority to EP20869901.7A priority patent/EP4021074A4/en
Publication of WO2021060904A1 publication Critical patent/WO2021060904A1/en

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Classifications

    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W60/00Affiliation to network, e.g. registration; Terminating affiliation with the network, e.g. de-registration
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W36/00Hand-off or reselection arrangements
    • H04W36/0005Control or signalling for completing the hand-off
    • H04W36/0011Control or signalling for completing the hand-off for data sessions of end-to-end connection
    • H04W36/0033Control or signalling for completing the hand-off for data sessions of end-to-end connection with transfer of context information
    • H04W36/0038Control or signalling for completing the hand-off for data sessions of end-to-end connection with transfer of context information of security context information
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W36/00Hand-off or reselection arrangements
    • H04W36/0005Control or signalling for completing the hand-off
    • H04W36/0011Control or signalling for completing the hand-off for data sessions of end-to-end connection
    • H04W36/0022Control or signalling for completing the hand-off for data sessions of end-to-end connection for transferring data sessions between adjacent core network technologies
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W8/00Network data management
    • H04W8/22Processing or transfer of terminal data, e.g. status or physical capabilities
    • H04W8/24Transfer of terminal data

Definitions

  • the present disclosure is a technology for interpreting radio access information in a communication environment in which AMF of 5G, SMF and MME of 4G coexist in different ways.
  • the MME is the network node that transmits the information from the UE or interprets and compares the information transmitted from the UE.
  • the information is expected to be transmitted from the AMF to the AMF or from the AMF to the MME.
  • radio access-related information of the UE in processing radio access-related information using NAS messages, radio access-related information of the UE, MME, which is a network node of 4G LTE, and AMF, which is a network node responsible for mobility control of 5G, do not match, or
  • MME which is a network node of 4G LTE
  • AMF which is a network node responsible for mobility control of 5G
  • a method to deal with the problem occurring in each of the UE and the network node, and problems that may occur when the information cannot be properly processed are resolved by transmitting a signal through a NAS message. It is for a method to perform or a device that performs this function.
  • the 5G communication system or the pre-5G communication system is called a communication system after a 4G network (Beyond 4G Network) or a system after an LTE system (Post LTE).
  • the 5G communication system is being considered for implementation in the ultra-high frequency (mmWave) band (eg, the 60 gigabyte (60 GHz) band).
  • ACM advanced coding modulation
  • FQAM Hybrid FSK and QAM Modulation
  • SWSC Small Cell Superposition Coding
  • FBMC Fan Bank Multi Carrier
  • NOMA non orthogonal multiple access
  • SCMA sparse code multiple access
  • IoT Internet of Things
  • IoE Internet of Everything
  • M2M Machine Type Communication
  • MTC Machine Type Communication
  • IoT intelligent IT services that create new value in human life by collecting and analyzing data generated from connected objects can be provided.
  • IoT is the field of smart home, smart building, smart city, smart car or connected car, smart grid, healthcare, smart home appliance, advanced medical service, etc. through the convergence and combination of existing IT (information technology) technology and various industries. Can be applied to.
  • an AMF which is a management entity that manages the mobility of a terminal
  • an SMF which is an entity that manages a session
  • mobility management may be performed through AMF through N3IWF for non 3GPP access, and session management may be performed through SMF.
  • security-related information which is an important element in mobility management, can be handled through AMF.
  • the UE in 4G, as the MME is in charge of mobility management and session management, in a non-stand alone structure in which entities for 4G and 5G communication coexist, the UE from 4G to 5G When moving, or when moving from 5G to 4G, there is a need to prepare a plan to process radio access-related information.
  • case 1 in a situation where the UE moves from 4G to 5G, the AMF of the UE and the 5G that is the handover target can process radio access-related information, and the 4G MME cannot process radio access-related information. In this case, a method for processing radio access-related information is needed.
  • case 2 in a situation in which the UE moves from 4G to 5G, when the UE, the MME of 4G, and the AMF of 5G can process radio access-related information, how to load the corresponding information in handover or mobility movement We need a plan on whether to send it.
  • the radio access-related information does not coincide with the UE, MME, which is a network node of 4G LTE, and AMF, which is a network node responsible for mobility control of 5G, or transmits If not, we propose a method of handling this by the UE and the network node, respectively, and a method for solving problems that may occur when the corresponding information cannot be properly processed by transmitting a signal through a NAS message, or Provides a device to perform.
  • the UE and the network node can efficiently communicate.
  • FIG. 1 is a diagram illustrating an environment in which a 5G network and a 4G network coexist according to an embodiment of the present disclosure.
  • FIG. 2 is a diagram illustrating an environment in which a 5G network and a 4G network coexist according to another embodiment of the present disclosure.
  • FIG. 3 is a diagram for explaining a method of transmitting UE radio information when a terminal handovers from a 5G system to a 4G system in an environment in which a 5G system and an LTE system coexist according to an embodiment of the present disclosure .
  • FIG. 4 is a diagram illustrating a method of transmitting UE radio information when a terminal performs handover from a 4G system to a 5G system in an environment in which a 5G system and a 4G system coexist according to an embodiment.
  • FIG. 5 is a diagram illustrating a method of processing and communicating NAS message information in a 5G network environment according to an embodiment of the present disclosure.
  • FIG. 6 is a diagram illustrating a method of processing and communicating NAS message information in a 5G network environment according to an embodiment of the present disclosure.
  • FIG. 7 is a block diagram showing the structure of a UE according to an embodiment.
  • FIG. 8 is a block diagram showing the structure of a network entity according to an embodiment.
  • FIG. 9 is a diagram illustrating an environment in which a 5G network and a 4G network coexist according to an embodiment of the present disclosure.
  • FIG. 10 is a diagram illustrating a method of processing and communicating NAS message information in a 5G network environment according to an embodiment of the present disclosure.
  • FIG. 11 is a flowchart illustrating a method of operating a terminal according to an embodiment of the present disclosure.
  • FIG. 12 is a diagram illustrating a method of operating a core entity according to an embodiment of the present disclosure.
  • a method of a core entity in a wireless communication system transmits a tracking area update (TAU) request message including terminal radio capability information associated with a UE radio capability ID.
  • TAU tracking area update
  • TAU tracking area update
  • a method of a terminal in a wireless communication system transmits a tracking area update (TAU) request message including terminal radio capability information associated with a UE radio capability ID to a core entity. Transmitting; Receiving a security mode command message for requesting terminal radio capability identifier information from the core entity based on the terminal radio capability information; And transmitting a security mode completion message including terminal radio capability identifier information to the core entity.
  • TAU tracking area update
  • the terminal in a terminal in a wireless communication system, includes a transceiver; And transmitting a TAU (tracking area update) request message including terminal radio capability information associated with a UE radio capability ID to a core entity through the transceiver, and through the transceiver, the UE radio
  • TAU tracking area update
  • a security mode command message for requesting terminal radio capability identifier information is received from the core entity based on capability information, and a security mode completion message including terminal radio capability identifier information is received through the transceiver.
  • It may include at least one processor that transmits to the core entity.
  • the core entity in a wireless communication system, includes a transceiver; And receiving a TAU (tracking area update) request message including terminal radio capability information associated with a UE radio capability ID from the terminal through the transceiver, and based on the terminal radio capability information through the transceiver.
  • TAU tracking area update
  • transmitting a security mode command message for requesting terminal radio capability identifier information to the terminal, and receiving a security mode completion message including terminal radio capability identifier information from the terminal through the transceiver may include at least one processor.
  • a term for identifying an access node used in the following description a term for network entities, a term for messages, a term for an interface between network objects, a term for various identification information And the like are illustrated for convenience of description. Accordingly, the present disclosure is not limited to terms to be described later, and other terms referring to objects having an equivalent technical meaning may be used.
  • the present disclosure uses terms and names defined in standards for 5G and LTE systems.
  • the present disclosure is not limited by the terms and names, and may be equally applied to systems conforming to other standards.
  • the communication standard defined by the 3GPP will be the main target, but the main subject of the present disclosure is to broaden the scope of the present disclosure to other communication systems having a similar technical background. It may be applied with slight modifications within the range not departing from, and this will be possible at the judgment of a person having skillful technical knowledge in the technical field of the present disclosure.
  • FIG. 1 is a diagram illustrating an environment in which a 5G network and a 4G network coexist according to an embodiment of the present disclosure.
  • a 5G network system includes User Plane Function (UPF), Session Management Function (SMF), Access and Mobility Management Function (AMF), Radio Access Network (RAN), User Data Management (UDM), PCF (Policy Control Function), etc. may be included, but this is only an example, and entities constituting the 5G network system are not limited to the above-described example. According to another example, for authentication of these entities, an authentication server function (AUSF) and authentication, authorization and accounting (AAA) may also be included in the 5G network system.
  • UPF User Plane Function
  • SMF Session Management Function
  • AMF Access and Mobility Management Function
  • RAN Radio Access Network
  • UDM User Data Management
  • PCF Policy Control Function
  • N3IWF N3 interworking function
  • the UE communicates through non 3GPP access and if the non 3GPP access is used, session management is handled through UE, non 3GPP access, N3IWF, SMF, and is controlled by SMF.
  • Mobility management is processed through UE, non 3GPP access, N3IWF, AMF, and can be controlled in AMF.
  • an MME in charge of mobility management and session management may be in charge of control for communication of the UE.
  • mobility management and session management entities may be divided into AMF and SMF.
  • AMF Access Management Function
  • SMF Session Management Function
  • the layer 3 NAS Non Access Stratum
  • AS Access stratum
  • the UE 1a-101 may perform general EUTRAN communication through an eNB and MME, and may perform data communication through a serving gateway, a PDN gate way, and the like. Meanwhile, since the HSS exists, subscription information for the UE and UE-related security key information are delivered.
  • the communication network to which the present disclosure is applied is assuming a network in which 5G and 4G coexist, but the present disclosure may be applied when the same concept is applied to other systems within a range that can be understood by those with ordinary technical skills.
  • FIG. 1 a scenario that may occur in the case of moving from 5G to 4G, that is, due to the occurrence of handover or mobility, is handled. That is, in a situation in which the UE moves from 5G to 4G, the AMF of 5G supports radio access-related information, and the LTE MME also supports radio access-related information.
  • the UE moves to a 4G LTE MME that supports radio access-related information in a network with 5G AMF supporting radio access-related information
  • the UE, the MME, or AMF have radio access-related information valid for each other. I can't check if there is.
  • FIG. 2 a scenario that may occur in the case of movement due to handover or mobility occurs in an environment in which 4G to 5G is moved is dealt with. That is, in a situation in which the UE moves from 4G to 5G, the AMF of 5G may or may not support radio access related information, and the MME of 4G may or may not support radio access related information.
  • the UE when the UE moves from a network with a 4G MME supporting radio access-related information to a network with a 5G AMF supporting radio access-related information, the UE, the MME, or the AMF transmits valid radio access-related information. I can't check if I have.
  • FIG. 3 is a diagram for explaining a method of transmitting UE radio information when a terminal handovers from a 5G system to a 4G system in an environment in which a 5G system and an LTE system coexist according to an embodiment of the present disclosure .
  • the UE 101 may transmit a registration request to the AMF.
  • the UE includes a UE radio information ID (Identity) (eg, UE radio capability ID (identity)) if the UE is a terminal that supports the transmission of UE radio information (eg, UE radio capability information identity).
  • UE radio information ID eg, UE radio capability ID (identity)
  • Registration Request NAS message can be transmitted.
  • the UE radio capability identity information IE may be configured as shown in Table 1 below including a UE radio capability identity information value part as an information element.
  • the UE radio capability identity information may be a manufacturer ID, such as an identifier assigned to a product by each manufacturer, in an embodiment. In another embodiment, it may be network assigned or PLMN assigned UE radio information or PLMN assigned UE radio capability information related to a Public Land Mobile Network (PLMN) that the UE has already been given by accessing the network.
  • PLMN Public Land Mobile Network
  • the source 5G RAN 103 may transmit a handover required message to the source AMF 111.
  • UE radio information (eg, UE radio capability information identity) may be transmitted from the 5G RAN 103 to the AMF 111.
  • the source AMF 111 may transmit a forward relocation request message to the target MME 183.
  • the source AMF 111 may include and transmit the UE radio information (eg, UE radio capability information identity) transmitted from the UE 101 in the forward relocation request message.
  • the target MME 183 may check whether there is UE radio capability information that the network knows about the UE 101 based on the UE radio capability information sent by the UE 101. That is, when the network already has information on the UE 101, it can be checked whether the network has UE radio capability information or UE manufacturer identity or UE radio information sent by the UE 101, for example. In addition, in the case of having information about the UE 101, it is possible to check whether the information having about the UE 101 matches the information sent by the network.
  • the source AMF 111 provides network assigned PLMN associated UE radio information (eg, network assigned UE radio information, or PLMN assigned UE radio information or PLMN assigned UE radio capability identity information IE (information element)). It can also be created and assigned to the UE. This operation is performed when the information possessed by the target MME 183 and the information possessed by the UE 101 do not match, or when the target MME 183 attempts to allocate PLMN assigned UE radio information to the UE 101. Can be performed on.
  • network assigned PLMN associated UE radio information eg, network assigned UE radio information, or PLMN assigned UE radio information or PLMN assigned UE radio capability identity information IE (information element)
  • the PLMN assigned UE radio capability identity information IE may be configured as shown in Table 2 below to include the PLMN assigned UE radio capability identity information value part in the information element.
  • the target MME 183 may transmit a handover request message to the target eNB 181.
  • the handover request message may include parameters related to the above-described PLMN assigned UE radio capability identity information (information element), UE radio capability information identity, and UE radio capability related parameters.
  • the target eNB 181 may create a transparent container.
  • the information element, that is, the parameter or information included in the transparent container may include PLMN assigned UE radio capability identity information as information used or included in the RRC message.
  • the target eNB 181 transmits a handover request acknowledgment message to the target MME 183, and at this time, the transparent container generated in 319 may be transmitted including PLMN assigned UE radio capability identity information.
  • the target MME 183 may transmit a forward relocation response message to the source AMF 111.
  • step 325 the source AMF 111 transmits a handover command to the source 5G RAN 103, in which case the transparent container created in 319 described above may be transmitted.
  • the source 5G RAN 103 may transmit a handover command including PLMN assigned UE radio capability identity information to the UE 101.
  • the UE 101 may transmit a handover confirm to the target eNB 181.
  • the target eNB 181 may check radio information capability information. Through this, the target eNB 181 can check whether the information possessed by the 5G RAN and the information possessed by the UE match.
  • the target eNB 181 may transmit a handover Notify message to the target MME 183.
  • the target MME 183 may transmit a security mode command message to the UE 101.
  • the UE 101 may transmit a security mode complete message including a UE radio capability information IE (information element) or a UE radio information related IE to the target MME 183.
  • a security mode complete message including a UE radio capability information IE (information element) or a UE radio information related IE to the target MME 183.
  • the UE 101 may transmit a Tracking Area Update request message including the UE radio capability information element to the target MME 183 in step 351.
  • the UE radio capability information included at this time may be PLMN assigned UE radio capability identity information possessed by the UE 101.
  • the UE radio access capability information possessed by the UE may be a UE radio capability identity.
  • FIG. 4 is a diagram illustrating a method of transmitting UE radio information when a terminal performs handover from a 4G system to a 5G system in an environment in which a 5G system and a 4G system coexist according to an embodiment.
  • step 401 as the UE 101 transmits an Attach request, it is in a state of being connected to the source eNB 181.
  • the UE 101 is already connected to 4G and may send a tracking area update request.
  • the UE 101 is a terminal that supports transmitting UE radio information (eg, UE radio capability information identity)
  • the UE 101 is a UE radio information ID (Identity) (eg, UE radio capability An Attach Request NAS message including an ID (identity)) or a Tracking Area update NAS message can be transmitted.
  • the UE radio capability identity information IE may be configured as shown in Table 3 below, including the UE radio capability identity information value part of the information element.
  • the UE radio capability identity information may be a manufacturer ID, such as an identifier assigned to a product by each manufacturer, in an embodiment.
  • the UE radio capability identity information may be network assigned or PLMN assigned UE radio information or PLMN assigned UE radio capability information related to the PLMN that the UE has already been given by accessing the network.
  • the source eNB 181 may transmit a handover required message to the source MME 183.
  • UE radio information (eg, UE radio capability information identity) may be transmitted from the source eNB 181 to the source MME 183.
  • the source MME 183 may transmit a forward relocation request message to the target AMF 111.
  • the source MME 183 may transmit a forward relocation request message including UE radio information (eg, UE radio capability information identity) transmitted from the UE 101.
  • UE radio information eg, UE radio capability information identity
  • the target AMF 111 may check whether the UE radio capability information sent by the UE 101 corresponds to the UE radio capability information that the Network knows about the UE. That is, when the network already has information on the UE, the target AMF 111 may check whether the network has UE radio capability information or UE manufacturer identity or UE radio information sent by the UE. In addition, when it is confirmed that the target AMF 111 has information about the UE 101, it can check whether the information it has about the UE 101 matches the information sent by the network.
  • the target AMF 111 provides network assigned PLMN associated UE radio information (eg, network assigned UE radio information, or PLMN assigned UE radio information or PLMN assigned UE radio capability identity information IE (information element)). It can also be created and assigned to the UE. This case may occur when the information possessed by the AMF and the information possessed by the UE do not match, or when the AMF attempts to allocate PLMN assigned UE radio information to the UE.
  • network assigned PLMN associated UE radio information eg, network assigned UE radio information, or PLMN assigned UE radio information or PLMN assigned UE radio capability identity information IE (information element)
  • the PLMN assigned UE radio capability identity information IE may be configured as shown in Table 4 below to include the PLMN assigned UE radio capability identity information value part of the information element.
  • a handover request message may be transmitted from the target AMF 111 to the target 5G-RAN 103.
  • the handover request message may include information elements including PLMN assigned UE radio capability identity information, that is, parameters, UE radio capability information identity, and UE radio capability related parameters.
  • the target 5G-RAN 103 may create a transparent container.
  • the transparent container is information used in the later RRC message and may include PLMN assigned UE radio capability identity information.
  • step 421 the target 5G RAN 103 transmits a handover request acknowledgment message to the target AMF 111, and at this time, a transparent container including PLMN assigned UE radio capability identity information generated in step 419 may be transmitted. .
  • the target AMF 111 may transmit a forward relocation response message to the source MME 181.
  • step 425 the source MME 183 transmits a handover command to the source eNB 181, in which case the transparent container created in step 419 may be transmitted.
  • a handover command including PLMN assigned UE radio capability identity information may be transmitted from the source eNB 181 to the UE 101.
  • the UE 101 may transmit a handover confirm to the target 5G RAN 103.
  • the target 5G RAN 103 may check radio information capability information. This is to check whether the information possessed by the target 5G RAN 103 matches the information possessed by the UE.
  • a handover Notify message may be transmitted from the target 5G-RAN 103 to the target AMF 111.
  • the UE 101 may transmit a registration request including a UE radio capability information element to the target AMF 111 in step 451.
  • the UE radio capability information included at this time may be PLMN assigned UE radio capability identity information possessed by the UE.
  • the UE radio capability information may be UE radio access capability information possessed by the UE 101, that is, UE radio capability identity.
  • FIG. 5 is a diagram illustrating a method of processing and communicating NAS message information in a 5G network environment according to an embodiment of the present disclosure.
  • step 501 the UE 101 is communicating with the AMF 111-2 and the SMF in the 5G network.
  • the UE 101 may perform a Tracking Area Update request by moving from the 5G network to the 4G network. At this time, the UE 101 informs the network of whether the UE network capability supports UE radio information while sending a tracking area update to the MME.
  • the UE 101 may transmit radio access related information by using the UE network capability information element included in the Tracking Area Update Request message.
  • a bit for informing UE radio capability related information may be added to the UE network capability information element in order to inform that there is an ability to deliver UE radio capability related information.
  • the UE 101 provides UE radio capability related information (eg, information for informing that the UE can provide UE radio capability identity related information to the network, or UE radio capability identity support indication). It can be transmitted by including it in the tracking area update request sent to the network.
  • UE radio capability related information eg, information for informing that the UE can provide UE radio capability identity related information to the network, or UE radio capability identity support indication. It can be transmitted by including it in the tracking area update request sent to the network.
  • Table 6 is an example informing that UE radio capability (eg, UE radio capability identity) can be provided to a UE network capability information element.
  • UE radio capability eg, UE radio capability identity
  • the UE radio information indicates whether the UE radio information of Table 7, for example, performs a function of providing information on the UE radio capability identity, and thus, the UE of Table 7
  • the value of radio information and its interpretation are as follows.
  • the MME may send a security mode command message to the UE 101.
  • the UE 101 may transmit UE radio capability identity related information while sending a security mode complete message to the MME.
  • UE radio capability info related information is UE radio capability information transmitted from the UE 101 to the MME, and may be coded and interpreted as follows as UE radio capability identity related information.
  • UE Radio capability information e.g., UE radio capability identity related information information element
  • the UE 101 may transmit information such as PLMN assigned UE radio information, UE radio information indication, and cause while sending a Tracking Area Update Accept message to the MME.
  • the MME may determine whether there is UE-related information in the MME with respect to the information transmitted by the UE 101 to the MME, and whether the information is valid.
  • the MME may generate new information when the information is not valid as a result of the determination, or when the MME can provide PLMN assigned UE radio related information (eg, PLMN assigned UE radio identity related information) to the UE. .
  • PLMN assigned UE radio related information e.g., PLMN assigned UE radio identity related information
  • PLMN assigned UE radio related information e.g., PLMN assigned UE radio identity related information
  • PLMN assigned UE radio related information may be provided by including in the Tracking Area Update Accept message sent from the MME to the UE. Information included in the Tracking Area Update Accept message is shown in Table 10 below.
  • radio information may be coded and interpreted as shown in Tables 11 and 12 below.
  • radio information may include PLMN assigned UE radio capability information (eg, PLMN assigned UE radio capability identity information).
  • radio information may include UE radio capability information (eg, UE radio capability identity information), as shown in Tables 13 and 14. That is, the UE radio capability information may be a value sent by the UE, or may be a value allocated to the UE while performing handover or mobility movement from the source network to the target network (eg, 4G network).
  • UE radio capability information eg, UE radio capability identity information
  • Radio info IE that is PLMN assigned UE radio capability IE (information element)
  • the radio information value part of the radio-related information included in Table 11 can be coded and interpreted as shown in Table 12 below. That is, the value part of the PLMN assigned UE radio capability of the PLMN assigned UE radio capability information element can be coded and interpreted as shown in Table 12 below.
  • radio information value of radio-related information included in Table 13 can be coded and interpreted as shown in Table 14 below.
  • Radio information indication may be informed from the MME to the UE 101 through a Tracking Area Update Accept message.
  • the radio information indication may indicate whether the network can support UE radio capability related information (eg, UE radio capability identity related information). This radio access information indication is coded as shown in Table 15 below and interpreted as shown in Table 16.
  • the UE 101 can check the cause of the error through the error code included in the message sent by the MME, that is, the error cause.
  • the MME may delete previous radio access related information for the UE and store the updated information.
  • FIG. 6 is a diagram illustrating a method of processing and communicating NAS message information in a 5G network environment according to an embodiment of the present disclosure.
  • the UE 101 may communicate with AMF and SMF in a 5G network.
  • the UE 101 moves from the 5G network to the 4G network and performs a Tracking Area Update request.
  • the UE may inform the network of whether the UE supports UE radio information in the UE network capability information element (IE) by sending a tracking area update request message to the MME by setting a bit value.
  • IE UE network capability information element
  • the UE 101 may transmit radio access related information by using the UE network capability information element included in the Tracking Area Update Request message.
  • a bit to inform UE radio capability related information is added to the UE network capability information element in order to inform that there is the ability to transmit UE radio capability related information through the UE network capability information element. Can be.
  • UE radio capability related information e.g., information for notifying that the UE can provide UE radio capability identity related information to the network, or UE radio capability identity support indication
  • UE radio capability related information is sent by the UE to the network tracking area update It can be included in the request and transmitted.
  • Table 19 shows an example of a UE network capability information element providing UE radio capability (eg, UE radio capability identity).
  • UE radio information information in the UE network capability IE can be coded and interpreted as shown in Table 20 below.
  • the MME may transmit a security mode command message to the UE 101.
  • the UE 101 may transmit a security mode complete message including UE radio capability identity related information to the MME.
  • Table 22 below is a description of UE radio capability info related information transmitted through a security mode complete message.
  • This is UE radio capability information transmitted from the UE 101 to the MME, and may include, for example, UE radio capability identity related information.
  • UE Radio capability information eg, UE radio capability identity related information information element
  • the MME may transmit information such as PLMN assigned UE radio information, UE radio information indication, and cause while sending a Tracking Area Update Accept message to the UE 101.
  • the MME determines whether there is UE-related information in the MME with respect to the information transmitted by the UE 101 to the MME, and whether the information is valid. If the MME determines that the information is not valid, or if the MME can provide PLMN assigned UE radio related information (eg, PLMN assigned UE radio identity related information) to the UE, the MME will generate new information. I can.
  • PLMN assigned UE radio related information eg, PLMN assigned UE radio identity related information
  • the MME determines that the information is not valid, or if the MME can provide PLMN assigned UE radio related information (e.g., PLMN assigned UE radio identity related information) to the UE, the MME is PLMN assigned UE radio related information (eg, PLMN assigned UE radio identity related information) may be included in the Tracking Area Update Accept message sent from the MME to the UE 101 as shown in Table 23 below and transmitted.
  • PLMN assigned UE radio related information e.g., PLMN assigned UE radio identity related information
  • radio information on UE radio information may be coded and interpreted as shown in Table 24 below.
  • Such radio information may be, for example, UE radio capability information (eg, UE radio capability identity information).
  • the UE radio capability information value of radio-related information can be coded and interpreted as follows.
  • the MME may inform the UE of the Radio information indication through the Tracking Area Update Accept message.
  • This radio information indication may indicate whether the network can support UE radio capability related information (eg, UE radio capability identity related information) of the UE.
  • This radio access information indication is coded as shown in Table 26 below and can be interpreted as shown in Table 27.
  • the MME may inform the UE 101 that an error has occurred through the error code of the Tracking Area Update Accept message.
  • the MME may delete previous radio access related information for the UE and store updated information.
  • FIG. 7 is a block diagram illustrating a structure of a UE 700 according to an embodiment.
  • the UE 700 may include a transceiver 710, a processor 720, and a memory 730. According to the above-described UE communication method, the transceiver 710, the processor 720, and the memory 730 may operate. However, the components of the UE 700 are not limited to the above-described example. For example, the UE 700 may include more or fewer components than the above-described components (eg, network interface controller (NIC)). In addition, the transmission/reception unit 710, the processor 720, and the memory 730 may be implemented in the form of a single chip.
  • NIC network interface controller
  • the transceiver 710 may transmit and receive signals with a network entity (eg, MME).
  • the signal may include at least one message described above with reference to FIGS. 1 to 6.
  • the transceiving unit may include an RF transmitter that up-converts and amplifies a frequency of a transmitted signal, and an RF receiver that amplifies a received signal with low noise and down-converts a frequency.
  • this is only an embodiment of the transmission/reception unit, and components of the transmission/reception unit are not limited to the RF transmitter and the RF receiver.
  • the transmission/reception unit may receive a signal through a wireless channel, output it to the processor 720, and transmit a signal output from the processor 720 through a wireless channel.
  • the processor 720 is hardware capable of driving software for processing radio access information on the UE 700 when the UE 700 performs a handover, and as an example, one or more CPUs (central processing unit) may be included in the processor 720.
  • the processor 720 may drive software stored in the memory 730, and in this case, the software may include a handover module composed of one or more instructions and a wireless access information management module.
  • the handover module may process handover-related data generated while the UE moves to different networks.
  • the radio access information management module may process information of the UE itself such as capability information of the UE or network state information such as an error cause. Meanwhile, the handover module and the wireless access information management module may be manufactured in the form of separate chips separated from the processor 720.
  • the memory 730 may store software and data necessary for the operation of the UE 700. In addition, the memory 730 may store control information or data included in a signal acquired from the terminal.
  • the memory may be composed of a storage medium such as ROM, RAM, hard disk, CD-ROM, and DVD, or a combination of storage media.
  • FIG. 8 is a block diagram showing the structure of a network entity 800 according to an embodiment.
  • the network entity 800 may include a transceiver 810, a processor 820, and a memory 830.
  • the network entity 800 may be any one of MME, AMG, eNB, and 5G RAN described above with reference to FIGS. 1 to 6. According to any one of the aforementioned MME, AMG, eNB, and 5G RAN communication methods, the transceiver 810, the processor 820, and the memory 830 may operate.
  • the constituent elements of the network entity 800 are not limited to the above-described example.
  • the network entity 800 may include more or fewer components than the above-described components (eg, network interface controller (NIC)).
  • the transmission/reception unit 810, the processor 820, and the memory 830 may be implemented in the form of a single chip.
  • the transceiver 810 may transmit and receive signals with other network entities or UEs.
  • the signal may include at least one message described above with reference to FIGS. 1 to 6.
  • the transceiving unit may include an RF transmitter that up-converts and amplifies a frequency of a transmitted signal, and an RF receiver that amplifies a received signal with low noise and down-converts a frequency.
  • this is only an embodiment of the transmission/reception unit, and components of the transmission/reception unit are not limited to the RF transmitter and the RF receiver.
  • the transmission/reception unit may receive a signal through a wireless channel, output it to the processor 820, and transmit a signal output from the processor 820 through the wireless channel.
  • the processor 820 is hardware capable of driving software for processing radio access information on the UE when the UE performs a handover, and as an example, one or more central processing units (CPUs) are the processor 820 ) Can be included.
  • the processor 820 may drive software stored in the memory 830, and in this case, the software may include a handover module composed of one or more instructions and a wireless access information management module.
  • the handover module may process handover-related data generated while the UE moves to different networks.
  • the radio access information management module may process network state information such as an error cause or capability information of the UE.
  • the handover module and the wireless access information management module may be manufactured in the form of separate chips separated from the processor 820.
  • the memory 830 may store software and data necessary for the operation of the network entity 800. In addition, the memory 830 may store control information or data included in a signal obtained from the terminal.
  • the memory 830 may be composed of a storage medium such as a ROM, a RAM, a hard disk, a CD-ROM, and a DVD, or a combination of storage media.
  • the UE may move from an LTE network that does not support UE radio info, that is, a UE radio capability identity-related function, that is, an MME, to the AMF of a network that supports UE radio info of 5G, that is, a network that supports UE radio capability identity.
  • UE radio info that is, a UE radio capability identity-related function, that is, an MME
  • step 1001 the UE moves from the LTE MME network to the network with the AMF 111 in the handover or idle mode.
  • step 1003 context transfer information related to the radio capability of the UE from the source MME to the target AMF 111 has been delivered.
  • the MME does not support the UE radio capability identity
  • the radio capability-related information of the UE is transmitted from the MME to the AMF 111 as full information. That is, these information are parameters related to radio access. Meanwhile, such information can be transferred from the source MME to the target AMF by requesting the target AMF to the source MME.
  • the source MME may perform context transfer to the target AMF.
  • the target AMF 111 has received full radio capability for the UE from the source MME.
  • the UE transmits a registration request to the target AMF 111.
  • the UE does not provide such information even though it may provide UE radio information, for example, UE radio capability identity. This is because there is no information about this even though the UE moves to the AMF 111 that can provide the UE radio capability identity in the network with the MME that cannot provide the UE radio capability identity.
  • step 1021 the AMF transmits an Identity request message to the UE using PEI as the identity.
  • the UE transmits an identity response message to the AMF and informs the AMF of the tracking area code (TAC) information required for radio access capability operation.
  • TAC tracking area code
  • the UE may transmit information such as UE radio info or UE radio capability identity while transmitting an identity response message to the AMF.
  • step 1031 the AMF 111 transmits a registration Accept message to the UE 101.
  • step 1041 the UE transmits a registration complete message to the AMF.
  • the AMF transmits a configuration update command message to the UE.
  • the AMF may allocate a PLMN assigned UE radio capability identity to the UE.
  • step 1053 the UE transmits a configuration update complete to the AMF.
  • Example 1 This is a method of providing UE radio capability identity together when the UE sends a registration request of 1003 to the target AMF 111.
  • Method 1-1) This method is a method of providing the UE radio capability identity given by the manufacturer of the UE as the UE radio capability identity when the UE sends a registration request to the AMF and provides the UE radio capability identity that the UE has.
  • Method 1-2 As another method, when the UE sends a registration request to the AMF, when the UE provides the UE radio capability identity that the UE has, the PLMN assigned from the network is assigned because the UE has previously accessed the corresponding network and PLMN. If there is a UE radio capability identity, this is a method of providing it to the AMF.
  • Embodiment 2 Or, by requesting the AMF to provide the UE radio capability identity to the UE, the UE provides the UE radio capability identity to the AMF.
  • step 1003 the full UE radio capability received by the AMF through context transfer and the UE radio capability identity provided by the UE to the AMF in step 1011 do not exist, or the UE radio capability-related information does not match when verified by AMF.
  • Method 2-1 This is a method by which the AMF requests the UE to provide UE radio info or UE radio capability identity and receives a response thereto.
  • the AMF may transmit UE radio info, that is, an indication requesting UE radio capability identity, while performing a registration accept message in step 1031.
  • UE radio info that is, an indication requesting UE radio capability identity
  • the AMF informs that the UE radio info, that is, the UE radio capability identity does not match, while performing the registration accept message in step 1031, and informs the error cause of the UE radio capability identity does not match by writing an error cause, for example.
  • AMF configures and transmits PLMN assigned UE radio info, that is, PLMN assigned UE radio capability identity.
  • Method 2-2 This is a method by which the AMF requests the UE to provide UE radio info or UE radio capability identity and receives a response thereto.
  • the AMF may transmit UE radio info, that is, an indication requesting UE radio capability identity, while performing a registration accept message in process 1031.
  • AMF informs through an indication that UE radio info, that is, UE radio capability identity does not match, or that UE radio info, that is, UE radio capability identity is required, while performing a registration accept message in step 1031.
  • AMF configures and transmits PLMN assigned UE radio info, that is, PLMN assigned UE radio capability identity.
  • Method 2-3 This is a method by which the AMF requests the UE to provide UE radio info or UE radio capability identity and receives a response thereto.
  • the AMF must perform the following actions before the registration accept message in step 1031.
  • AMF transmits an Identity request message to the UE using PEI as identity.
  • the UE transmits an identity response message to the AMF and informs the AMF of the tracking area code (TAC) information required for radio access capability operation.
  • TAC tracking area code
  • the UE may transmit information such as UE radio info or UE radio capability identity while transmitting an identity response message to the AMF.
  • Embodiment 3 Or a method for AMF to provide radio capability identity to the UE.
  • the UE sends a registration request to the AMF in process 1011.
  • the UE transmits the UE radio capability identity together.
  • This may be a PLMN assigned radio capability identity transmitted from a network by the UE, or may be a manufacturer UE radio capability identity granted to a manufacturer.
  • the UE radio capability identity may not be provided to the AMF 111 even though there is a function capable of providing radio information such as UE radio capability identity.
  • Method 3-1) This is for a case where there is a UE radio capability identity received from the UE, and the information of full UE radio capability is the same.
  • step 1031 when the AMF 111 receives full UE radio capability information for the UE from the MME through the previous 1003 process, that is, the context transfer, the UE radio received through the registration request from the UE in the 1011 process. If you have capability identity
  • the UE radio capability identity and the UE radio capability related information for the UE are compared with the full radio capability information received through context transfer from the MME, if the same information is the same, the UE radio capability identity received from the UE is stored, and then the UE radio capability Identity can be used.
  • step 1031 when the AMF 111 receives full UE radio capability information for the UE from the MME through the previous 1003 process, that is, the context transfer, the UE radio received through the registration request from the UE in the 1011 process. If you have capability identity
  • the UE radio capability identity and the UE radio capability related information for the UE are compared with the full radio capability information received through context transfer from the MME, if the same information is the same, the UE radio capability identity received from the UE is stored, and then the UE radio capability Identity is utilized, and the PLMN assigned UE radio capability identity assigned by the AMF to the UE can be delivered.
  • Method 3-2 This is for the case where there is no UE radio capability identity, but the same information compared to the full radio capability information.
  • the AMF 111 has received full UE radio capability information for the UE from the MME through the previous 1003 process, that is, the AMF 111 has context transfer, and the corresponding UE has previously accessed the AMF 111, so AMF ( 111) There is information about this UE (for example, an identifier such as 5G-GUTI for the UE) or information about the UE radio capability identity,
  • the information is the same as compared with the full radio capability information received through context transfer from the MME and the information related to the radio capability of the UE
  • step 1031 the AMF informs the UE of the UE radio capability identity information stored by the AMF.
  • step 1031 the AMF allocates and transmits the PLMN assigned UE radio capability identity newly allocated by the AMF to the UE, so that the information of the UE and the network can be synchronized.
  • the AMF creates and informs the UE radio capability identity assigned to the PLMN. And according to an embodiment, when the AMF receives a registration complete message from the UE as a response, it stores PLMN assigned UE radio info, that is, PLMN assigned UE radio capability identity information.
  • Method 3-2-2 If the UE accesses the AMF in step 1031 and the AMF has information about the UE, but the AMF does not have the UE radio info received from the UE corresponding to the full UE radio capability received from the source MME, For example, if the AMF does not have UE radio capability identity information or UE radio info corresponding to the full UE radio capability received from the source MME
  • the AMF may transmit a PLMN assigned UE radio capability identity corresponding to the UE in step 1031.
  • Method 4 This is a method of using the configuration update command.
  • the UE Upon receiving this, the UE deletes the UE radio capability identity for the corresponding PLMN and the previously assigned PLMM assigned UE radio capability identity, and the UE sends a configuration update complete message to the AMF.
  • the AMF 111 has received full UE radio capability information for the UE from the MME through the previous 1003 process, that is, the AMF 111 has context transfer, and the corresponding UE has previously accessed the AMF 111, so AMF ( 111) There is information about this UE (for example, an identifier such as 5G-GUTI for the UE) or information about the UE radio capability identity,
  • the information is the same as compared with the full radio capability information received through context transfer from the MME and the information related to the radio capability of the UE
  • the AMF 111 transmits a registration Accept message to the UE 101-1.
  • the UE sends a registration complete message to the AMF.
  • the AMF transmits a configuration update command message to the UE.
  • the AMF may allocate a PLMN assigned UE radio capability identity to the UE.
  • the UE sends configuration update complete to AMF.
  • a user equipment transmits a tracking area update request message including capability information of the UE to a target network entity to which the UE is a handover target, and Receiving a request message for a capability identifier, transmitting information on the capability identifier of the terminal to a target network entity, and radio access to the UE based on the capability identifier of the terminal at the target network entity
  • a method of performing communication is disclosed in which a tracking area update completion message is received from a target network entity.
  • FIG. 11 is a flowchart illustrating a method of operating a terminal according to an embodiment of the present disclosure.
  • the terminal may transmit a tracking area update (TAU) request message including terminal radio capability information associated with the terminal radio capability identifier to the core entity.
  • the core entity may include an MME, and the MME may include an entity subject to handover. For example, when a terminal handovers from a 5G network to a 4G network, the terminal may transmit a TAU request message including terminal radio capability information to the MME.
  • the terminal radio capability information may include bit information indicating that the terminal can provide the terminal radio capability identifier. For example, when the bit information has a value of '1', the terminal radio capability information may indicate that the terminal can provide a radio capability identifier. When the bit information has a value of '0', the terminal radio capability information may indicate that the terminal cannot provide radio capability identifier information.
  • the terminal may transmit a TAU request message including information indicating that the terminal can provide a radio capability identifier to the MME in a handover situation to the 4G network.
  • the terminal may receive a security mode command message for requesting terminal radio capability identifier information from the core entity based on the terminal radio capability information.
  • the core entity may request terminal radio capability identifier information from the terminal based on the terminal radio capability information included in the TAU request message. Specifically, the core entity may request the terminal radio capability identifier information from the terminal when the terminal radio capability information indicates that the terminal can provide the radio capability identifier information based on the bit information included in the terminal radio capability information.
  • the terminal may receive a security mode message from the core entity based on information on the terminal radio capability identifier available in the core entity. Specifically, when the information on the radio capability identifier available in the core entity indicates that there is no radio capability identifier available in the core entity, the core entity may request terminal radio capability identifier information from the terminal.
  • the terminal may provide radio capability identifier information, and when there is no radio capability identifier available in the core entity, a security mode message may be received from the core entity.
  • the terminal may transmit a security mode completion message including terminal radio capability identifier information to the core entity in response to the security mode command message. Thereafter, the terminal may receive a TAU completion message from the core entity.
  • FIG. 12 is a diagram illustrating a method of operating a core entity according to an embodiment of the present disclosure.
  • the core entity may receive from the terminal a tracking area update (TAU) request message including terminal radio capability information associated with the terminal radio capability identifier.
  • the core entity may include an MME, and the MME may include an entity subject to handover. For example, when a terminal handovers from a 5G network to a 4G network, the MME may receive a TAU request message including terminal radio capability information from the terminal.
  • the terminal radio capability information may include bit information indicating that the terminal can provide the terminal radio capability identifier. For example, when the bit information has a value of '1', the terminal radio capability information may indicate that the terminal can provide a radio capability identifier. When the bit information has a value of '0', the terminal radio capability information may indicate that the terminal cannot provide radio capability identifier information. In a situation in which the terminal is handed over to the 4G network, the MME may receive a TAU request message from the terminal including information indicating that the terminal can provide the radio capability identifier.
  • the core entity may transmit a security mode command message for requesting terminal radio capability identifier information to the terminal based on the terminal radio capability information.
  • the core entity may request terminal radio capability identifier information from the terminal based on the terminal radio capability information included in the TAU request message. Specifically, the core entity may request the terminal radio capability identifier information from the terminal when the terminal radio capability information indicates that the terminal can provide the radio capability identifier information based on the bit information included in the terminal radio capability information.
  • the core entity may transmit a security mode message to the terminal based on information on the terminal radio capability identifier available in the core entity. Specifically, when the information on the radio capability identifier available in the core entity indicates that there is no radio capability identifier available in the core entity, the core entity may request terminal radio capability identifier information from the terminal.
  • the core entity may provide radio capability identifier information from the terminal, and may transmit a security mode message to the terminal when there is no radio capability identifier available in the core entity.
  • the core entity may receive a security mode completion message including the terminal radio capability identifier information from the terminal. Thereafter, the core entity may transmit a TAU completion message to the terminal.
  • the terminal in a terminal in a wireless communication system, includes a transceiver; And transmitting a TAU (tracking area update) request message including terminal radio capability information associated with a UE radio capability ID to a core entity through the transceiver, and through the transceiver, the UE radio At least one of receiving a security mode command message from the core entity based on capability information, and transmitting a security mode completion message including terminal radio capability identifier information to the core entity through the transceiver. It may include a processor.
  • TAU tracking area update
  • the at least one processor may receive the security mode command message from the core entity based on information on a terminal radio capability identifier available in the core entity through the transceiver.
  • the terminal radio capability information may include bit information indicating that the terminal supports the terminal radio capability identifier.
  • the information on the terminal radio capability identifier available in the core entity may indicate that the terminal radio capability identifier available in the core entity does not exist.
  • the core entity includes a mobility management entity (MME), and the MME may be an entity subject to handover.
  • MME mobility management entity
  • the core entity in a wireless communication system, includes a transceiver; And receiving a TAU (tracking area update) request message including terminal radio capability information associated with a UE radio capability ID from the terminal through the transceiver, and based on the terminal radio capability information through the transceiver.
  • TAU tracking area update
  • it may include at least one processor that transmits a security mode command message to the terminal, and receives a security mode completion message including terminal radio capability identifier information from the terminal through the transceiver.
  • constituent elements included in the invention are expressed in the singular or plural according to the specific embodiments presented. However, the singular or plural expression is selected appropriately for the situation presented for convenience of description, and the present disclosure is not limited to the singular or plural constituent elements, and even constituent elements expressed in plural are composed of the singular or in the singular. Even the expressed constituent elements may be composed of pluralities.

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Abstract

A method for UE in a wireless communication system may comprise the steps of: transmitting, to a core entity, a tracking area update (TAU) request message including UE radio capability information associated with a UE radio capability ID; receiving, from the core entity, a security mode command message for requesting UE radio capability ID information on the basis of the UE radio capability information; and transmitting, to the core entity, security mode complete message including the UE radio capability ID information.

Description

무선 통신 시스템에서 통신을 수행하는 방법 및 장치 Method and apparatus for performing communication in a wireless communication system
본 개시는 서로 다른 방식으로 동작하는 5G의 AMF, SMF와 4G의 MME가 공존하는 통신 환경에서 무선 액세스 정보(radio access information)를 해석하는 방안에 대한 기술이다. The present disclosure is a technology for interpreting radio access information in a communication environment in which AMF of 5G, SMF and MME of 4G coexist in different ways.
특히 무선 액세스 관련 정보를 알지 못하는 노드에서 무선 액세스 관련 정보를 해석할 수 있는 노드로 이동할 시에 해당 정보가 UE 로부터 전송되거나, 혹은 UE 로부터 전송된 정보를 해석해서 비교하는 동작을 하는 네트워크 노드는 MME 로부터 AMF 로 혹은 AMF 로부터 MME 로 해당 정보가 전송되어 올 것을 기대하고 있다. In particular, when moving from a node that does not know radio access-related information to a node that can interpret radio access-related information, the MME is the network node that transmits the information from the UE or interprets and compares the information transmitted from the UE. The information is expected to be transmitted from the AMF to the AMF or from the AMF to the MME.
따라서 본 개시에서는 NAS 메시지를 이용하여 무선 액세스 관련 정보를 처리함에 있어서, UE, 4G LTE 의 network node 인 MME, 5G 의 mobility control 을 담당하는 network node 인 AMF 의 무선 액세스 관련 정보가 일치하지 않거나, 무선 액세스 관련 정보가 전송되지 않은 문제가 발생한 경우에, UE, network node 각각 에서 발생한 문제를 처리하는 방안과 해당 정보를 제대로 처리할 수 없는 경우에 발생할 수 있는 문제들을 NAS 메시지를 통해 시그널을 전송하여 해결하기 위한 방안 또는 이러한 기능을 수행하는 장치에 대한 것이다. Therefore, in the present disclosure, in processing radio access-related information using NAS messages, radio access-related information of the UE, MME, which is a network node of 4G LTE, and AMF, which is a network node responsible for mobility control of 5G, do not match, or In the case of a problem in which the access-related information is not transmitted, a method to deal with the problem occurring in each of the UE and the network node, and problems that may occur when the information cannot be properly processed are resolved by transmitting a signal through a NAS message. It is for a method to perform or a device that performs this function.
4G 통신 시스템 상용화 이후 증가 추세에 있는 무선 데이터 트래픽 수요를 충족시키기 위해, 개선된 5G 통신 시스템 또는 pre-5G 통신 시스템을 개발하기 위한 노력이 이루어지고 있다. 이러한 이유로, 5G 통신 시스템 또는 pre-5G 통신 시스템은 4G 네트워크 이후 (Beyond 4G Network) 통신 시스템 또는 LTE 시스템 이후 (Post LTE) 이후의 시스템이라 불리어지고 있다. 높은 데이터 전송률을 달성하기 위해, 5G 통신 시스템은 초고주파 (mmWave) 대역 (예를 들어, 60기가 (60GHz) 대역과 같은)에서의 구현이 고려되고 있다. 초고주파 대역에서의 전파의 경로손실 완화 및 전파의 전달 거리를 증가시키기 위해, 5G 통신 시스템에서는 빔포밍 (beamforming), 거대 배열 다중 입출력 (massive MIMO), 전차원 다중입출력 (full dimensional MIMO, FD-MIMO), 어레이 안테나 (array antenna), 아날로그 빔형성 (analog beam-forming), 및 대규모 안테나 (large scale antenna) 기술들이 논의되고 있다. 또한 시스템의 네트워크 개선을 위해, 5G 통신 시스템에서는 진화된 소형 셀, 개선된 소형 셀 (advanced small cell), 클라우드 무선 액세스 네트워크 (cloud radio access network: cloud RAN), 초고밀도 네트워크 (ultra-dense network), 기기 간 통신 (Device to Device communication: D2D), 무선 백홀 (wireless backhaul), 이동 네트워크 (moving network), 협력 통신 (cooperative communication), CoMP (Coordinated Multi-Points), 및 수신 간섭제거 (interference cancellation) 등의 기술 개발이 이루어지고 있다. 이 밖에도, 5G 시스템에서는 진보된 코딩 변조(Advanced Coding Modulation: ACM) 방식인 FQAM (Hybrid FSK and QAM Modulation) 및 SWSC (Sliding Window Superposition Coding)과, 진보된 접속 기술인 FBMC (Filter Bank Multi Carrier), NOMA (non orthogonal multiple access), 및 SCMA (sparse code multiple access) 등이 개발되고 있다.Efforts are being made to develop an improved 5G communication system or a pre-5G communication system in order to meet the increasing demand for wireless data traffic after the commercialization of 4G communication systems. For this reason, the 5G communication system or the pre-5G communication system is called a communication system after a 4G network (Beyond 4G Network) or a system after an LTE system (Post LTE). In order to achieve a high data rate, the 5G communication system is being considered for implementation in the ultra-high frequency (mmWave) band (eg, the 60 gigabyte (60 GHz) band). In order to mitigate the path loss of radio waves in the ultra-high frequency band and increase the propagation distance of radio waves, in 5G communication systems, beamforming, massive array multiple input/output (MIMO), and full dimensional multiple input/output (FD-MIMO) ), array antenna, analog beam-forming, and large scale antenna technologies are being discussed. In addition, in order to improve the network of the system, in 5G communication system, evolved small cell, advanced small cell, cloud radio access network (cloud RAN), ultra-dense network , Device to Device communication (D2D), wireless backhaul, moving network, cooperative communication, CoMP (Coordinated Multi-Points), and interference cancellation And other technologies are being developed. In addition, in 5G systems, advanced coding modulation (ACM) methods such as FQAM (Hybrid FSK and QAM Modulation) and SWSC (Sliding Window Superposition Coding), advanced access technologies such as FBMC (Filter Bank Multi Carrier), NOMA (non orthogonal multiple access), and sparse code multiple access (SCMA), and the like are being developed.
한편, 인터넷은 인간이 정보를 생성하고 소비하는 인간 중심의 연결 망에서, 사물 등 분산된 구성 요소들 간에 정보를 주고 받아 처리하는 IoT (Internet of Things, 사물인터넷) 망으로 진화하고 있다. 클라우드 서버 등과의 연결을 통한 빅데이터 (Big data) 처리 기술 등이 IoT 기술에 결합된 IoE (Internet of Everything) 기술도 대두되고 있다. IoT를 구현하기 위해서, 센싱 기술, 유무선 통신 및 네트워크 인프라, 서비스 인터페이스 기술, 및 보안 기술과 같은 기술 요소 들이 요구되어, 최근에는 사물간의 연결을 위한 센서 네트워크 (sensor network), 사물 통신 (Machine to Machine, M2M), MTC (Machine Type Communication) 등의 기술이 연구되고 있다. IoT 환경에서는 연결된 사물들에서 생성된 데이터를 수집, 분석하여 인간의 삶에 새로운 가치를 창출하는 지능형 IT (Internet Technology) 서비스가 제공될 수 있다. IoT는 기존의 IT (information technology) 기술과 다양한 산업 간의 융합 및 복합을 통하여 스마트홈, 스마트 빌딩, 스마트 시티, 스마트 카 혹은 커넥티드 카, 스마트 그리드, 헬스 케어, 스마트 가전, 첨단의료서비스 등의 분야에 응용될 수 있다.Meanwhile, the Internet is evolving from a human-centered connection network in which humans create and consume information, to an IoT (Internet of Things, Internet of Things) network that exchanges and processes information between distributed components such as objects. IoE (Internet of Everything) technology, which combines IoT technology with big data processing technology through connection with cloud servers, is also emerging. In order to implement IoT, technological elements such as sensing technology, wired/wireless communication and network infrastructure, service interface technology, and security technology are required. , M2M), and MTC (Machine Type Communication) technologies are being studied. In the IoT environment, intelligent IT (Internet Technology) services that create new value in human life by collecting and analyzing data generated from connected objects can be provided. IoT is the field of smart home, smart building, smart city, smart car or connected car, smart grid, healthcare, smart home appliance, advanced medical service, etc. through the convergence and combination of existing IT (information technology) technology and various industries. Can be applied to.
이에, 5G 통신 시스템을 IoT 망에 적용하기 위한 다양한 시도들이 이루어지고 있다. 예를 들어, 센서 네트워크 (sensor network), 사물 통신 (Machine to Machine, M2M), MTC (Machine Type Communication) 등의 기술이 5G 통신 기술이 빔 포밍, MIMO, 및 어레이 안테나 등의 기법에 의해 구현되고 있는 것이다. 앞서 설명한 빅데이터 처리 기술로써 클라우드 무선 액세스 네트워크 (cloud RAN)가 적용되는 것도 5G 기술과 IoT 기술 융합의 일 예라고 할 수 있을 것이다.Accordingly, various attempts have been made to apply a 5G communication system to an IoT network. For example, technologies such as sensor network, machine to machine (M2M), and MTC (Machine Type Communication) are implemented by techniques such as beamforming, MIMO, and array antenna. There is. The application of a cloud radio access network (cloud RAN) as the big data processing technology described above can be said as an example of the convergence of 5G technology and IoT technology.
상술한 것과 이동통신 시스템의 발전에 따라 다양한 서비스를 제공할 수 있게 됨으로써, 이러한 서비스들을 효과적으로 제공하기 위한 방안이 요구되고 있다.As described above and with the development of a mobile communication system, various services can be provided, and thus, a method for effectively providing these services is required.
차세대 무선 통신 시스템(5G or NR)에서는, 단말의 이동성을 관리하는 관리 엔티티인 AMF 와 세션을 관리하는 엔티티인 SMF 가 분리 될 수 있다. 이에 따라 기존의 4G LTE 통신에서 MME 가 이동성 및 세션을 함께 관리하던 운영 방식과는 달리, 차세대 무선 통신 시스템에서는 이동성 관리와, 세션을 관리하는 엔티티가 분리됨에 따라, 단말과 네트워크 엔티티 간에 통신 방안과 통신 관리 방안이 변경될 수 있다. In the next-generation wireless communication system (5G or NR), an AMF, which is a management entity that manages the mobility of a terminal, and an SMF, which is an entity that manages a session, may be separated. Accordingly, unlike the operation method in which the MME manages mobility and session together in the existing 4G LTE communication, in the next-generation wireless communication system, mobility management and the entity managing the session are separated. Communication management plans may be changed.
차세대 무선 통신 시스템에서는, non 3GPP access 에 대해서 N3IWF를 거쳐 AMF 를 통해 이동성 관리(mobility management)를 수행하고, SMF 를 통해 세션 관리(session management)를 수행할 수 있다. 또한 AMF 를 통해서는 이동성 관리(mobility management) 에 있어서 중요한 요소인 보안 관련 정보도 다뤄질 수 있다. In the next-generation wireless communication system, mobility management may be performed through AMF through N3IWF for non 3GPP access, and session management may be performed through SMF. In addition, security-related information, which is an important element in mobility management, can be handled through AMF.
한편, 4G 에서는 MME 가 이동성 관리 (mobility management)와 세션 관리(session management)를 담당함에 따라, 4G 와 5G 의 통신을 위한 엔티티(entity) 들이 공존하는 non stand alone 구조에서, UE가 4G 에서 5G 로 이동할 시, 혹은 5G 에서 4G 로 이동할 시에 radio access 관련 정보를 처리하는 방안을 마련할 필요가 있다. On the other hand, in 4G, as the MME is in charge of mobility management and session management, in a non-stand alone structure in which entities for 4G and 5G communication coexist, the UE from 4G to 5G When moving, or when moving from 5G to 4G, there is a need to prepare a plan to process radio access-related information.
특히 case 1로서, UE가 4G에서 5G로 이동하는 상황에서, UE 및 핸드 오버 대상이 되는 5G의 AMF에서는 radio access 관련 정보를 처리할 수 있고, 4G의 MME에서는 radio access 관련 정보를 처리할 수 없는 경우에, radio access 관련 정보를 처리하기 위한 방안이 필요하다. 또한, case 2로서, UE가 4G에서 5G로 이동하는 상황에서, UE, 4G의 MME 및 5G의 AMF가 radio access 관련 정보를 처리할 수 있는 경우, handover 나 mobility 이동에 있어서 해당 정보를 어떻게 실어서 보내주는지에 대한 방안이 필요하다. In particular, as case 1, in a situation where the UE moves from 4G to 5G, the AMF of the UE and the 5G that is the handover target can process radio access-related information, and the 4G MME cannot process radio access-related information. In this case, a method for processing radio access-related information is needed. In addition, as case 2, in a situation in which the UE moves from 4G to 5G, when the UE, the MME of 4G, and the AMF of 5G can process radio access-related information, how to load the corresponding information in handover or mobility movement We need a plan on whether to send it.
또한, UE가 5G에서 4G로 이동하는 상황에서, UE, 5G AMF 및 4G MME가 radio access 관련 정보를 처리할 수 있는 경우, handover 나 mobility 이동에 있어서 해당 정보를 어떻게 실어서 보내주는지에 대한 방안이 필요하다. 또한, 다른 실시예에 따라, UE가 5G에서 4G로 이동하는 상황에서, UE 및 5G의 AMF는 radio access 관련 정보를 처리할 수 있고, 4G의 MME는 radio access 관련 정보를 처리할 수 없는 경우에 handover 나 mobility 이동에 있어서 해당 정보를 어떻게 처리할 지에 대한 방안이 필요하다.In addition, in a situation in which the UE moves from 5G to 4G, if the UE, 5G AMF, and 4G MME can process radio access-related information, there is a plan for how to load and send the corresponding information in handover or mobility movement. need. In addition, according to another embodiment, in a situation in which the UE moves from 5G to 4G, the UE and the AMF of 5G can process radio access-related information, and the 4G MME cannot process radio access-related information. In the case of handover or mobility movement, there is a need for a plan for how to process the information.
따라서 본 개시에서는 NAS 메시지를 이용하여 radio access 관련 정보를 처리함에 있어서, UE, 4G LTE의 network node 인 MME, 5G 의 mobility control 을 담당하는 network node 인 AMF가 radio access 관련 정보가 일치하지 않거나, 전송되지 않은 경우에, 이를 UE, network node 에서 각각 처리하는 방법과 해당 정보를 제대로 처리할 수 없는 경우에 발생할 수 있는 문제들을 NAS 메시지를 통해 시그널을 전송하여 해결하는 방법을 제시하고, 또는 이러한 기능을 수행하는 장치를 제공한다. Therefore, in the present disclosure, in processing radio access-related information using NAS messages, the radio access-related information does not coincide with the UE, MME, which is a network node of 4G LTE, and AMF, which is a network node responsible for mobility control of 5G, or transmits If not, we propose a method of handling this by the UE and the network node, respectively, and a method for solving problems that may occur when the corresponding information cannot be properly processed by transmitting a signal through a NAS message, or Provides a device to perform.
본 개시를 통해서 4G, 5G 가 공존하는 환경이면서, radio access 정보를 지원하는 node 와 지원하지 않는 node 가 공존하는 환경하에서 Through this disclosure, in an environment in which 4G and 5G coexist, and in an environment in which a node supporting radio access information and a node not supporting radio access information coexist.
1) radio access 관련 정보를 지원하지 않는 node 로 이동할 때는 해당 정보를 지원하지 않음을 알려주고, 1) When moving to a node that does not support radio access-related information, inform that the information is not supported,
2) radio access 관련 정보를 지원하는 node 로 이동할 때는 해당 정보를 지원하며 radio access 정보를 활용하여 통신을 수행할 수 있는 방안을 제공하며, 2) When moving to a node that supports radio access-related information, the information is supported and a method to perform communication using radio access information is provided.
3) 해당 정보의 UE, network node 가 해당 radio access 관련 정보에 대한 synchronization 이 되지 않은 환경하에서는 해당 정보를 synchronize 할 수 있는 방안을 제공함으로써, 3) By providing a method to synchronize the corresponding information in an environment in which the UE and the network node of the corresponding information are not synchronized with the corresponding radio access-related information,
UE와 네트워크 노드가 효율적으로 통신을 수행할 수 있다. The UE and the network node can efficiently communicate.
도 1은 본 개시의 일 실시예에 따른 5G 네트워크 및 4G 네트워크가 공존하는 환경을 설명하기 위한 도면이다.1 is a diagram illustrating an environment in which a 5G network and a 4G network coexist according to an embodiment of the present disclosure.
도 2는 본 개시의 다른 실시예에 따른 5G 네트워크 및 4G 네트워크가 공존하는 환경을 설명하기 위한 도면이다.2 is a diagram illustrating an environment in which a 5G network and a 4G network coexist according to another embodiment of the present disclosure.
도 3은 본 개시의 일 실시예에 따른 5G 시스템, LTE 시스템이 공존하는 환경에서 단말이 5G 시스템에서 4G 시스템으로 핸드오버하는 경우 UE 무선 정보(radio information)를 전달하는 방법을 설명하기 위한 도면이다. 3 is a diagram for explaining a method of transmitting UE radio information when a terminal handovers from a 5G system to a 4G system in an environment in which a 5G system and an LTE system coexist according to an embodiment of the present disclosure .
도 4는 일 실시예에 따른 5G 시스템 및 4G 시스템이 공존하는 환경에서 단말이 4G 시스템에서 5G 시스템으로 핸드오버 하는 경우 UE radio information를 전달하는 방법을 설명하기 위한 도면이다. FIG. 4 is a diagram illustrating a method of transmitting UE radio information when a terminal performs handover from a 4G system to a 5G system in an environment in which a 5G system and a 4G system coexist according to an embodiment.
도 5는 본 개시의 일 실시예에 따른 5G 네트워크 환경에서 NAS 메시지 정보 처리 및 통신 방법을 설명하기 위한 도면이다. 5 is a diagram illustrating a method of processing and communicating NAS message information in a 5G network environment according to an embodiment of the present disclosure.
도 6은 본 개시의 일 실시예에 따른 5G 네트워크 환경에서 NAS 메시지 정보 처리 및 통신 방법을 설명하기 위한 도면이다. 6 is a diagram illustrating a method of processing and communicating NAS message information in a 5G network environment according to an embodiment of the present disclosure.
도 7은 일 실시예에 따른 UE의 구조를 도시한 블록도이다.7 is a block diagram showing the structure of a UE according to an embodiment.
도 8은 일 실시예에 따른 네트워크 엔티티의 구조를 도시한 블록도이다.8 is a block diagram showing the structure of a network entity according to an embodiment.
도 9는 본 개시의 일 실시예에 따른 5G 네트워크 및 4G 네트워크가 공존하는 환경을 설명하기 위한 도면이다.9 is a diagram illustrating an environment in which a 5G network and a 4G network coexist according to an embodiment of the present disclosure.
도 10은 본 개시의 일 실시예에 따른 5G 네트워크 환경에서 NAS 메시지 정보 처리 및 통신 방법을 설명하기 위한 도면이다. 10 is a diagram illustrating a method of processing and communicating NAS message information in a 5G network environment according to an embodiment of the present disclosure.
도 11은 본 개시의 일 실시예에 따른 단말의 동작 방법을 설명하기 위한 순서도이다.11 is a flowchart illustrating a method of operating a terminal according to an embodiment of the present disclosure.
도 12는 본 개시의 일 실시예에 따른 코어 엔티티의 동작 방법을 설명하기 위한 도면이다.12 is a diagram illustrating a method of operating a core entity according to an embodiment of the present disclosure.
본 개시의 일 실시예에 따르면, 무선 통신 시스템에서 코어 엔티티(entity)의 방법은 단말 무선 능력 식별자(UE radio capability ID)와 연관된 단말 무선 능력 정보를 포함하는 TAU(tracking area update) 요청 메시지를 단말로부터 수신하는 단계; 상기 단말 무선 능력 정보에 기초하여 단말 무선 능력 식별자 정보의 요청을 위한 보안 모드 명령 메시지(security mode command message)를 상기 단말에게 전송하는 단계; 및 단말 무선 능력 식별자 정보를 포함하는 보안 모드 완료 메시지를 상기 단말로부터 수신하는 단계를 포함할 수 있다.According to an embodiment of the present disclosure, a method of a core entity in a wireless communication system transmits a tracking area update (TAU) request message including terminal radio capability information associated with a UE radio capability ID. Receiving from; Transmitting a security mode command message for requesting terminal radio capability identifier information to the terminal based on the terminal radio capability information; And receiving a security mode completion message including terminal radio capability identifier information from the terminal.
본 개시의 일 실시예에 따르면, 무선 통신 시스템에서 단말의 방법은 단말 무선 능력 식별자(UE radio capability ID)와 연관된 단말 무선 능력 정보 포함하는 TAU(tracking area update) 요청 메시지를 코어 엔티티(entity)에게 전송하는 단계; 상기 단말 무선 능력 정보에 기초하여 단말 무선 능력 식별자 정보의 요청을 위한 보안 모드 명령 메시지(security mode command message)를 상기 코어 엔티티로부터 수신하는 단계; 및 단말 무선 능력 식별자 정보를 포함하는 보안 모드 완료 메시지를 상기 코어 엔티티에게 전송하는 단계를 포함할 수 있다.According to an embodiment of the present disclosure, a method of a terminal in a wireless communication system transmits a tracking area update (TAU) request message including terminal radio capability information associated with a UE radio capability ID to a core entity. Transmitting; Receiving a security mode command message for requesting terminal radio capability identifier information from the core entity based on the terminal radio capability information; And transmitting a security mode completion message including terminal radio capability identifier information to the core entity.
본 개시의 일 실시예에 따르면, 무선 통신 시스템에서 단말에 있어서, 상기 단말은 트랜시버; 및 상기 트랜시버를 통해, 단말 무선 능력 식별자(UE radio capability ID)와 연관된 단말 무선 능력 정보 포함하는 TAU(tracking area update) 요청 메시지를 코어 엔티티(entity)에게 전송하고, 상기 트랜시버를 통해, 상기 단말 무선 능력 정보에 기초하여 단말 무선 능력 식별자 정보의 요청을 위한 보안 모드 명령 메시지(security mode command message)를 상기 코어 엔티티로부터 수신하며, 상기 트랜시버를 통해, 단말 무선 능력 식별자 정보를 포함하는 보안 모드 완료 메시지를 상기 코어 엔티티에게 전송하는 적어도 하나의 프로세서를 포함할 수 있다.According to an embodiment of the present disclosure, in a terminal in a wireless communication system, the terminal includes a transceiver; And transmitting a TAU (tracking area update) request message including terminal radio capability information associated with a UE radio capability ID to a core entity through the transceiver, and through the transceiver, the UE radio A security mode command message for requesting terminal radio capability identifier information is received from the core entity based on capability information, and a security mode completion message including terminal radio capability identifier information is received through the transceiver. It may include at least one processor that transmits to the core entity.
본 개시의 일 실시예에 따르면, 무선 통신 시스템에서 코어 엔티티에 있어서, 상기 코어 엔티티는 트랜시버; 및 상기 트랜시버를 통해, 단말 무선 능력 식별자(UE radio capability ID)와 연관된 단말 무선 능력 정보 포함하는 TAU(tracking area update) 요청 메시지를 단말로부터 수신하고, 상기 트랜시버를 통해, 상기 단말 무선 능력 정보에 기초하여 단말 무선 능력 식별자 정보의 요청을 위한 보안 모드 명령 메시지(security mode command message)를 상기 단말에게 전송하며, 상기 트랜시버를 통해, 단말 무선 능력 식별자 정보를 포함하는 보안 모드 완료 메시지를 상기 단말로부터 수신하는 적어도 하나의 프로세서를 포함할 수 있다.According to an embodiment of the present disclosure, in a core entity in a wireless communication system, the core entity includes a transceiver; And receiving a TAU (tracking area update) request message including terminal radio capability information associated with a UE radio capability ID from the terminal through the transceiver, and based on the terminal radio capability information through the transceiver. Thus, transmitting a security mode command message for requesting terminal radio capability identifier information to the terminal, and receiving a security mode completion message including terminal radio capability identifier information from the terminal through the transceiver. It may include at least one processor.
이하, 첨부된 도면을 참조하여 본 개시의 바람직한 실시 예들을 상세히 설명한다. 이 때, 첨부된 도면에서 동일한 구성 요소는 가능한 동일한 부호로 나타내고 있음에 유의해야 한다. 또한 본 개시의 요지를 흐리게 할 수 있는 공지 기능 및 구성에 대한 상세한 설명은 생략할 것이다. Hereinafter, exemplary embodiments of the present disclosure will be described in detail with reference to the accompanying drawings. In this case, it should be noted that the same components in the accompanying drawings are indicated by the same reference numerals as possible. In addition, detailed descriptions of known functions and configurations that may obscure the subject matter of the present disclosure will be omitted.
본 명세서에서 실시 예를 설명함에 있어서 본 개시가 속하는 기술 분야에 익히 알려져 있고 본 개시와 직접적으로 관련이 없는 기술 내용에 대해서는 설명을 생략한다. 이는 불필요한 설명을 생략함으로써 본 개시의 요지를 흐리지 않고 더욱 명확히 전달하기 위함이다.In describing the embodiments herein, descriptions of technical contents that are well known in the technical field to which the present disclosure pertains and are not directly related to the present disclosure will be omitted. This is to more clearly convey the gist of the present disclosure by omitting unnecessary description.
마찬가지 이유로 첨부 도면에 있어서 일부 구성요소는 과장되거나 생략되거나 개략적으로 도시되었다. 또한, 각 구성요소의 크기는 실제 크기를 전적으로 반영하는 것이 아니다. 각 도면에서 동일한 또는 대응하는 구성요소에는 동일한 참조 번호를 부여하였다.For the same reason, some elements in the accompanying drawings are exaggerated, omitted, or schematically illustrated. In addition, the size of each component does not fully reflect the actual size. The same reference numerals are assigned to the same or corresponding components in each drawing.
본 개시의 이점 및 특징, 그리고 그것들을 달성하는 방법은 첨부되는 도면과 함께 상세하게 후술되어 있는 실시 예들을 참조하면 명확해질 것이다. 그러나 본 개시는 이하에서 개시되는 실시 예들에 한정되는 것이 아니라 서로 다른 다양한 형태로 구현될 수 있으며, 단지 본 실시 예들은 본 개시의 개시가 완전하도록 하고, 본 개시가 속하는 기술분야에서 통상의 지식을 가진 자에게 발명의 범주를 완전하게 알려주기 위해 제공되는 것이다. 명세서 전체에 걸쳐 동일 참조 부호는 동일 구성 요소를 지칭한다.Advantages and features of the present disclosure, and a method of achieving them will be apparent with reference to embodiments described later in detail together with the accompanying drawings. However, the present disclosure is not limited to the embodiments disclosed below, but may be implemented in a variety of different forms, and only these embodiments make the disclosure of the present disclosure complete, and common knowledge in the technical field to which the present disclosure pertains. It is provided to fully inform the possessor of the scope of the invention. The same reference numerals refer to the same elements throughout the specification.
이하 설명에서 사용되는 접속 노드(node)를 식별하기 위한 용어, 망 객체(network entity)들을 지칭하는 용어, 메시지들을 지칭하는 용어, 망 객체들 간 인터페이스를 지칭하는 용어, 다양한 식별 정보들을 지칭하는 용어 등은 설명의 편의를 위해 예시된 것이다. 따라서, 본 개시가 후술되는 용어들에 한정되는 것은 아니며, 동등한 기술적 의미를 가지는 대상을 지칭하는 다른 용어가 사용될 수 있다.A term for identifying an access node used in the following description, a term for network entities, a term for messages, a term for an interface between network objects, a term for various identification information And the like are illustrated for convenience of description. Accordingly, the present disclosure is not limited to terms to be described later, and other terms referring to objects having an equivalent technical meaning may be used.
이하 설명의 편의를 위하여, 본 개시는 5G, LTE 시스템에 대한 규격에서 정의하는 용어와 명칭들을 사용한다. 하지만, 본 개시가 상기 용어 및 명칭들에 의해 한정되는 것은 아니며, 다른 규격에 따르는 시스템에도 동일 하게 적용될 수 있다. For convenience of description below, the present disclosure uses terms and names defined in standards for 5G and LTE systems. However, the present disclosure is not limited by the terms and names, and may be equally applied to systems conforming to other standards.
즉, 본 개시의 실시 예들을 구체적으로 설명함에 있어서, 3GPP가 규격을 정한 통신 규격을 주된 대상으로 할 것이지만, 본 개시의 주요한 요지는 유사한 기술적 배경을 가지는 여타의 통신 시스템에도 본 개시의 범위를 크게 벗어나지 아니하는 범위에서 약간의 변형으로 적용 가능하며, 이는 본 개시의 기술 분야에서 숙련된 기술적 지식을 가진 자의 판단으로 가능할 것이다. That is, in describing the embodiments of the present disclosure in detail, the communication standard defined by the 3GPP will be the main target, but the main subject of the present disclosure is to broaden the scope of the present disclosure to other communication systems having a similar technical background. It may be applied with slight modifications within the range not departing from, and this will be possible at the judgment of a person having skillful technical knowledge in the technical field of the present disclosure.
도 1은 본 개시의 일 실시예에 따른 5G 네트워크 및 4G 네트워크가 공존하는 환경을 설명하기 위한 도면이다.1 is a diagram illustrating an environment in which a 5G network and a 4G network coexist according to an embodiment of the present disclosure.
본 개시의 일 실시예에 따른 5G 네트워크 시스템에는 UPF (User Plane Function), SMF (Session Management Function), AMF (Access and Mobility Management Function) , 5G RAN (Radio Access Network), UDM (User Data Management) , PCF (Policy Control Function) 등이 포함될 수 있으나, 이는 일 예일 뿐, 5G 네트워크 시스템을 구성하는 엔티티(entity)들이 전술한 예에 한정되는 것은 아니다. 다른 예에 따라, 이들 엔티티들의 인증을 위하여 AUSF (Authentication Server Function), AAA(authentication, authorization and accounting)도 5G 네트워크 시스템에 포함될 수 있다. A 5G network system according to an embodiment of the present disclosure includes User Plane Function (UPF), Session Management Function (SMF), Access and Mobility Management Function (AMF), Radio Access Network (RAN), User Data Management (UDM), PCF (Policy Control Function), etc. may be included, but this is only an example, and entities constituting the 5G network system are not limited to the above-described example. According to another example, for authentication of these entities, an authentication server function (AUSF) and authentication, authorization and accounting (AAA) may also be included in the 5G network system.
한편 non 3GPP access 를 통해서 UE 가 통신하는 경우를 위해서 N3IWF (N3 interworking function)이 존재하고, non 3GPP access 를 통하는 경우 session management는 UE, non 3GPP access, N3IWF, SMF를 통해 처리되고, SMF에서 제어되며, mobility management는 UE, non 3GPP access, N3IWF, AMF 를 통해서 처리되고, AMF에서 제어될 수 있다. Meanwhile, N3IWF (N3 interworking function) exists for the case where the UE communicates through non 3GPP access, and if the non 3GPP access is used, session management is handled through UE, non 3GPP access, N3IWF, SMF, and is controlled by SMF. , Mobility management is processed through UE, non 3GPP access, N3IWF, AMF, and can be controlled in AMF.
한편 본 개시의 일 실시예에서는 5G 와 4G 시스템이 공존하고 있다고 가정하고 있다. 4G 에서는 이동성 관리(Mobility management) 및 세션 관리(session management)를 담당하는 MME 가 UE 의 통신을 위한 control 을 담당할 수 있다. 5G 에서는 이동성 관리 (mobility management), 세션 관리(session management) 엔티티가 AMF, SMF 로 분리될 수 있다. 한편, 5G 통신을 위하여 5G 통신 엔티티들로만 통신을 수행하는 stand alone deployment 구조, 또한 5G 통신을 위하여 4G, 5G 엔티티들을 사용하는 non stand alone deployment 구조의 경우도 고려될 수 있다. Meanwhile, in an embodiment of the present disclosure, it is assumed that 5G and 4G systems coexist. In 4G, an MME in charge of mobility management and session management may be in charge of control for communication of the UE. In 5G, mobility management and session management entities may be divided into AMF and SMF. Meanwhile, a stand alone deployment structure in which communication is performed only with 5G communication entities for 5G communication, and a non-stand alone deployment structure in which 4G and 5G entities are used for 5G communication may also be considered.
도 1에 도시된 바와 같이 UE 가 network 와 통신함에 있어서 control은 eNB를 사용하고, core network 는 5G entitiy를 사용하는 형태의 deployment가 가능하다. 이러한 경우 layer 3 인 NAS(Non Access Stratum)는 UE와 AMF 가 mobility management 를 담당하고, UE와 SMF 가 session management 를 담당하는 반면, layer 2인 AS(Access Stratum)는 UE 와 eNB를 통해서 전달되므로 이에 따라 security context를 생성하고, 관리하는 방안이 필요하다. 이에 본 개시에서는 이러한 deployment 상황에도 적용할 수 있는 security context 생성, 관리, 프로토콜 교환에 대해서 설명하고자 한다. As shown in FIG. 1, when a UE communicates with a network, it is possible to use an eNB for control and a 5G entitiy for a core network. In this case, the layer 3 NAS (Non Access Stratum) is in charge of mobility management by the UE and AMF, and session management by the UE and SMF, whereas the access stratum (AS), which is layer 2, is transmitted through the UE and the eNB. Accordingly, it is necessary to create and manage security context. Therefore, in this disclosure, we will describe security context creation, management, and protocol exchange that can be applied to such a deployment situation.
본 개시에서 4G 와 관련하여 UE (1a-101)는 eNB, MME 을 통해서 일반적인 EUTRAN communication 을 수행할 수 있고, serving gateway, PDN gate way 등을 통해서 data 통신을 수행할 수 있다. 한편 HSS가 존재하여 UE 에 관한 subscription 의 정보 및 UE 관련 보안키 정보 등을 전달하게 된다. In the present disclosure, in relation to 4G, the UE 1a-101 may perform general EUTRAN communication through an eNB and MME, and may perform data communication through a serving gateway, a PDN gate way, and the like. Meanwhile, since the HSS exists, subscription information for the UE and UE-related security key information are delivered.
본 개시가 적용되는 통신망은 5G, 4G가 공존하는 망을 가정하고 있으나, 통상의 기술력을 가진 자가 이해 할 수 있는 범주안에서 다른 시스템에서도 같은 개념이 적용되는 경우 본 개시가 적용될 수 있다. The communication network to which the present disclosure is applied is assuming a network in which 5G and 4G coexist, but the present disclosure may be applied when the same concept is applied to other systems within a range that can be understood by those with ordinary technical skills.
도 1의 경우는, 5G에서 4G 로 이동하는 환경에서 즉 handover 나 mobility 가 발생하여 이동한 경우에 발생할 수 있는 시나리오를 다룬다. 즉 UE 가 5G에서 4G로 이동하는 상황이며, 5G의 AMF 에서는 radio access 관련 정보를 support하고, LTE MME 에서도 radio access 관련 정보를 support 하는 경우이다. In the case of FIG. 1, a scenario that may occur in the case of moving from 5G to 4G, that is, due to the occurrence of handover or mobility, is handled. That is, in a situation in which the UE moves from 5G to 4G, the AMF of 5G supports radio access-related information, and the LTE MME also supports radio access-related information.
즉, UE 가 radio access 관련 정보를 support 하는 5G AMF 가 있는 network 에서, radio access 관련 정보를 support 하는 4G LTE MME 로 이동하는 경우로서, UE 나 MME 혹은 AMF 는 서로가 valid 한 radio access 관련 정보를 가지고 있는지 확인할 수 없다. That is, when the UE moves to a 4G LTE MME that supports radio access-related information in a network with 5G AMF supporting radio access-related information, the UE, the MME, or AMF have radio access-related information valid for each other. I can't check if there is.
도 2 의 경우는, 4G에서 5G 로 이동하는 환경에서 즉 handover 나 mobility 가 발생하여 이동한 경우에 발생할 수 있는 시나리오를 다룬다. 즉 UE 가 4G에서 5G로 이동하는 상황이며, 5G의 AMF 에서는 radio access 관련 정보를 지원 하거나 지원하지 않을 수도 있고, 4G의 MME 에서도 radio access 관련 정보를 지원(support) 하거나 지원하지 않을 수도 있다. In the case of FIG. 2, a scenario that may occur in the case of movement due to handover or mobility occurs in an environment in which 4G to 5G is moved is dealt with. That is, in a situation in which the UE moves from 4G to 5G, the AMF of 5G may or may not support radio access related information, and the MME of 4G may or may not support radio access related information.
즉 UE 가 radio access 관련 정보를 support 하는 4G MME 가 있는 network 에서, radio access 관련 정보를 support 하는 5G AMF가 있는 네트워크로 이동하는 경우로서, UE 나 MME 혹은 AMF 는 서로가 valid 한 radio access 관련 정보를 가지고 있는지 확인할 수 없다. That is, when the UE moves from a network with a 4G MME supporting radio access-related information to a network with a 5G AMF supporting radio access-related information, the UE, the MME, or the AMF transmits valid radio access-related information. I can't check if I have.
도 3은 본 개시의 일 실시예에 따른 5G 시스템, LTE 시스템이 공존하는 환경에서 단말이 5G 시스템에서 4G 시스템으로 핸드오버하는 경우 UE 무선 정보(radio information)를 전달하는 방법을 설명하기 위한 도면이다. 3 is a diagram for explaining a method of transmitting UE radio information when a terminal handovers from a 5G system to a 4G system in an environment in which a 5G system and an LTE system coexist according to an embodiment of the present disclosure .
301 과정에서 UE (101)는 등록 요청(Registration request)을 AMF 로 전송할 수 있다. In step 301, the UE 101 may transmit a registration request to the AMF.
이때, UE 는 UE 가 UE radio information (예를 들어, UE radio capability information identity)을 전달하는 것을 지원하는 단말이라면 UE radio information ID(Identity)(예를 들면, UE radio capability ID (identity))를 포함하는 Registration Request NAS 메시지를 전송할 수 있다. At this time, the UE includes a UE radio information ID (Identity) (eg, UE radio capability ID (identity)) if the UE is a terminal that supports the transmission of UE radio information (eg, UE radio capability information identity). Registration Request NAS message can be transmitted.
예를 들면, UE radio capability identity information IE는 information element로서 UE radio capability identity information value 파트를 포함하여 다음의 표 1과 같이 구성될 수 있다. For example, the UE radio capability identity information IE may be configured as shown in Table 1 below including a UE radio capability identity information value part as an information element.
UE radio capability identity information은 일 실시예로 각 제조사(manufacturer)가 제품에 부여한 식별자와 같은 manufacturer ID 가 될 수도 있다. 다른 일 실시예로 UE 가 이미 네트워크에 접속하여 부여 받은 PLMN(Public Land Mobile Network)과 관련된 Network assigned 혹은 PLMN assigned UE radio information 혹은 PLMN assigned UE radio capability information 일 수도 있다. The UE radio capability identity information may be a manufacturer ID, such as an identifier assigned to a product by each manufacturer, in an embodiment. In another embodiment, it may be network assigned or PLMN assigned UE radio information or PLMN assigned UE radio capability information related to a Public Land Mobile Network (PLMN) that the UE has already been given by accessing the network.
<표 1><Table 1>
Figure PCTKR2020013034-appb-img-000001
Figure PCTKR2020013034-appb-img-000001
311 과정에서 source 5G RAN (103)은 source AMF(111)로 handover required message 를 전송할 수 있다. In step 311, the source 5G RAN 103 may transmit a handover required message to the source AMF 111.
이 때 UE radio information (예를 들어, UE radio capability information identity)가 5G RAN(103)로부터 AMF(111)로 전달 될 수도 있다. At this time, UE radio information (eg, UE radio capability information identity) may be transmitted from the 5G RAN 103 to the AMF 111.
313 과정에서 source AMF(111)는 target MME(183)로 forward relocation request 메시지를 전송할 수 있다. 이 때, source AMF(111)는 UE (101)로부터 전달된 UE radio information (예를 들면, UE radio capability information identity)를 forward relocation request 메시지에 포함하여 전달 할 수도 있다. In step 313, the source AMF 111 may transmit a forward relocation request message to the target MME 183. At this time, the source AMF 111 may include and transmit the UE radio information (eg, UE radio capability information identity) transmitted from the UE 101 in the forward relocation request message.
315 과정에서, target MME(183)는 UE (101)가 보내준 UE radio capability information를 기초로, Network가 UE(101)에 대해서 알고 있는 UE radio capability information 이 있는지 확인할 수 있다. 즉 network가 이미 UE (101)에 대한 정보를 가지고 있는 경우, 예를 들면 network가 UE(101)가 보낸 UE radio capability information 혹은 UE manufacturer identity, 혹은 UE radio information 을 가지고 있는지를 확인할 수 있다. 또한 UE(101)에 대한 정보를 가지고 있는 경우, UE(101)에 대해서 가지고 있는 정보가 network가 보낸 정보와 일치하는지도 확인할 수 있다. In step 315, the target MME 183 may check whether there is UE radio capability information that the network knows about the UE 101 based on the UE radio capability information sent by the UE 101. That is, when the network already has information on the UE 101, it can be checked whether the network has UE radio capability information or UE manufacturer identity or UE radio information sent by the UE 101, for example. In addition, in the case of having information about the UE 101, it is possible to check whether the information having about the UE 101 matches the information sent by the network.
또한, 315 과정에서 source AMF(111)는 network assigned PLMN associated UE radio information (예를 들어, network assigned UE radio information, 혹은 PLMN assigned UE radio information 혹은 PLMN assigned UE radio capability identity information IE (information element))를 생성하여 UE에 할당할 수도 있다. 이러한 동작은, target MME (183)가 가지고 있는 정보와 UE (101)가 가지고 있는 정보가 일치하지 않거나, target MME (183)가 UE (101)에 대해서 PLMN assigned UE radio information 을 할당해주고자 하는 경우에 수행될 수 있다. In addition, in step 315, the source AMF 111 provides network assigned PLMN associated UE radio information (eg, network assigned UE radio information, or PLMN assigned UE radio information or PLMN assigned UE radio capability identity information IE (information element)). It can also be created and assigned to the UE. This operation is performed when the information possessed by the target MME 183 and the information possessed by the UE 101 do not match, or when the target MME 183 attempts to allocate PLMN assigned UE radio information to the UE 101. Can be performed on.
예를 들면, PLMN assigned UE radio capability identity information IE는 information element에 PLMN assigned UE radio capability identity information value 파트를 포함하도록 다음의 표 2와 같이 구성될 수 있다. For example, the PLMN assigned UE radio capability identity information IE may be configured as shown in Table 2 below to include the PLMN assigned UE radio capability identity information value part in the information element.
<표 2><Table 2>
Figure PCTKR2020013034-appb-img-000002
Figure PCTKR2020013034-appb-img-000002
317 과정에서 target MME (183)는 target eNB (181)로 handover request 메시지를 전송할 수 있다. handover request 메시지에는 전술한 PLMN assigned UE radio capability identity information을 포함한 파라미터(information element), UE radio capability information identity, UE radio capability 관련 파라미터들이 포함될 수 있다. In step 317, the target MME 183 may transmit a handover request message to the target eNB 181. The handover request message may include parameters related to the above-described PLMN assigned UE radio capability identity information (information element), UE radio capability information identity, and UE radio capability related parameters.
319 과정에서는 target eNB (181)는 transparent container 를 생성할 수 있다. transparent container에 포함된 information element 즉 파라미터, 혹은 정보는 이후 RRC 메시지에서 사용되는 정보, 혹은 포함되는 정보로서 PLMN assigned UE radio capability identity information 을 포함할 수 있다. In step 319, the target eNB 181 may create a transparent container. The information element, that is, the parameter or information included in the transparent container may include PLMN assigned UE radio capability identity information as information used or included in the RRC message.
321 에서는 target eNB (181)가 target MME (183)로 handover request acknowledgement message를 전송하며, 이때 상기 319 에서 생성한 transparent container 가 PLMN assigned UE radio capability identity information 를 포함하여 전송될 수 있다. In 321, the target eNB 181 transmits a handover request acknowledgment message to the target MME 183, and at this time, the transparent container generated in 319 may be transmitted including PLMN assigned UE radio capability identity information.
이후 323과정에서 target MME (183)는 source AMF(111) 로 forward relocation response 메시지를 전송할 수 있다. Thereafter, in step 323, the target MME 183 may transmit a forward relocation response message to the source AMF 111.
325 과정에서 source AMF (111)는 source 5G RAN (103)으로 handover command 를 전송하는데 이 때 전술한 319 에서 만든 transparent container 가 전송될 수 있다. In step 325, the source AMF 111 transmits a handover command to the source 5G RAN 103, in which case the transparent container created in 319 described above may be transmitted.
이후 327 과정에서 source 5G RAN(103)은 PLMN assigned UE radio capability identity information 를 포함하는 handover command를 UE (101)로 전송할 수 있다. Thereafter, in step 327, the source 5G RAN 103 may transmit a handover command including PLMN assigned UE radio capability identity information to the UE 101.
이후 331 과정에서 UE (101)는 target eNB (181)로 handover confirm을 전송할 수 있다. Thereafter, in step 331, the UE 101 may transmit a handover confirm to the target eNB 181.
333 과정에서, target eNB(181)는 radio information capability 정보를 확인할 수 있다. target eNB(181)는 이를 통해, 5G RAN 이 가지고 있는 정보와 UE 가 가지고 있는 정보가 일치하는지를 확인할 수 있다. In step 333, the target eNB 181 may check radio information capability information. Through this, the target eNB 181 can check whether the information possessed by the 5G RAN and the information possessed by the UE match.
335 에서 target eNB (181)는 target MME (183)로 handover Notify 메시지를 전송할 수 있다. At 335, the target eNB 181 may transmit a handover Notify message to the target MME 183.
341 과정에서 target MME (183)는 UE (101)로 security mode command 메시지를 전송할 수 있다. In step 341, the target MME 183 may transmit a security mode command message to the UE 101.
343 과정에서 UE (101)는 target MME (183) 로 UE radio capability information IE (information element) 혹은 UE radio information 관련 IE 를 포함하는 security mode complete 메시지를 전송할 수 있다. In step 343, the UE 101 may transmit a security mode complete message including a UE radio capability information IE (information element) or a UE radio information related IE to the target MME 183.
이후, UE (101)는 351 과정에서 target MME(183)로 UE radio capability information element 를 포함한 Tracking Area Update request 메시지를 전송할 수 있다. 이 때 포함되는 UE radio capability information 은 UE (101)가 가지고 있는 PLMN assigned UE radio capability identity information 일 수 도 있다. 또 다른 일 실시예로 UE 가 가진 UE radio access capability information 은 UE radio capability identity 일 수도 있다. Thereafter, the UE 101 may transmit a Tracking Area Update request message including the UE radio capability information element to the target MME 183 in step 351. The UE radio capability information included at this time may be PLMN assigned UE radio capability identity information possessed by the UE 101. In another embodiment, the UE radio access capability information possessed by the UE may be a UE radio capability identity.
도 4는 일 실시예에 따른 5G 시스템 및 4G 시스템이 공존하는 환경에서 단말이 4G 시스템에서 5G 시스템으로 핸드오버 하는 경우 UE radio information를 전달하는 방법을 설명하기 위한 도면이다. FIG. 4 is a diagram illustrating a method of transmitting UE radio information when a terminal performs handover from a 4G system to a 5G system in an environment in which a 5G system and a 4G system coexist according to an embodiment.
401 과정에서 UE (101)는 Attach request 를 전송함에 따라, source eNB (181)에 접속이 되어 있는 상태이다. 다른 예에 따라, UE(101) 는 4G 에 이미 connected 상태로 접속 되어 있으며, tracking area update request를 보낼 수 있다. 이 때 UE(101) 가 UE radio information (예를 들어, UE radio capability information identity)을 전달하는 것을 지원하는 단말인 경우, UE(101)는 UE radio information ID(Identity) (예를 들면 UE radio capability ID (identity)) 를 포함한 Attach Request NAS 메시지나 Tracking Area update NAS 메시지를 전송할 수 있다. In step 401, as the UE 101 transmits an Attach request, it is in a state of being connected to the source eNB 181. According to another example, the UE 101 is already connected to 4G and may send a tracking area update request. At this time, if the UE 101 is a terminal that supports transmitting UE radio information (eg, UE radio capability information identity), the UE 101 is a UE radio information ID (Identity) (eg, UE radio capability An Attach Request NAS message including an ID (identity)) or a Tracking Area update NAS message can be transmitted.
예를 들면, UE radio capability identity information IE는 information element의 UE radio capability identity information value 파트를 포함하여 다음의 표 3과 같이 구성될 수 있다. For example, the UE radio capability identity information IE may be configured as shown in Table 3 below, including the UE radio capability identity information value part of the information element.
UE radio capability identity information은 일 실시예로 각 제조사(manufacturer)가 제품에 부여한 식별자와 같은 manufacturer ID가 될 수도 있다. 다른 실시예로, UE radio capability identity information은 UE가 이미 network 에 접속하여 부여 받은 PLMN 과 관련된 Network assigned 혹은 PLMN assigned UE radio information 혹은 PLMN assigned UE radio capability information 일 수도 있다. The UE radio capability identity information may be a manufacturer ID, such as an identifier assigned to a product by each manufacturer, in an embodiment. In another embodiment, the UE radio capability identity information may be network assigned or PLMN assigned UE radio information or PLMN assigned UE radio capability information related to the PLMN that the UE has already been given by accessing the network.
<표 3><Table 3>
Figure PCTKR2020013034-appb-img-000003
Figure PCTKR2020013034-appb-img-000003
411 과정에서 source eNB (181)는 source MME (183)로 handover required message 를 전송할 수 있다. In step 411, the source eNB 181 may transmit a handover required message to the source MME 183.
이 때, UE radio information (예를 들어, UE radio capability information identity)이 source eNB (181)로부터 source MME (183)로 전달될 수도 있다. At this time, UE radio information (eg, UE radio capability information identity) may be transmitted from the source eNB 181 to the source MME 183.
413 과정에서 source MME (183)는 target AMF (111)로 forward relocation request 메시지를 전송할 수 있다. 이 때, source MME (183)는 UE (101)로부터 전달된 UE radio information (예를 들어, UE radio capability information identity)를 포함하는 forward relocation request 메시지를 전달할 수도 있다. In step 413, the source MME 183 may transmit a forward relocation request message to the target AMF 111. In this case, the source MME 183 may transmit a forward relocation request message including UE radio information (eg, UE radio capability information identity) transmitted from the UE 101.
415 과정에서, target AMF (111)는 UE (101)가 보내준 UE radio capability information 이 Network가 UE 에 대해서 알고 있는 UE radio capability information 과 대응되는지 확인할 수 있다. 즉, target AMF (111)는 network가 이미 UE 에 대한 정보를 가지고 있는 경우, 예를 들면 network 이 UE 가 보낸 UE radio capability information 혹은 UE manufacturer identity, 혹은 UE radio information 을 가지고 있는지를 확인할 수 있다. 또한, target AMF (111)는 UE (101) 에 대한 정보를 가지고 있다고 확인된 경우, UE (101)에 대해서 가지고 있는 정보가 network가 보낸 정보와 일치하는지 여부를 확인할 수 있다. In step 415, the target AMF 111 may check whether the UE radio capability information sent by the UE 101 corresponds to the UE radio capability information that the Network knows about the UE. That is, when the network already has information on the UE, the target AMF 111 may check whether the network has UE radio capability information or UE manufacturer identity or UE radio information sent by the UE. In addition, when it is confirmed that the target AMF 111 has information about the UE 101, it can check whether the information it has about the UE 101 matches the information sent by the network.
또한, 415 과정에서 target AMF (111)는 network assigned PLMN associated UE radio information (예를 들어, network assigned UE radio information, 혹은 PLMN assigned UE radio information 혹은 PLMN assigned UE radio capability identity information IE (information element))을 생성하여 UE 에 할당해 줄 수도 있다. 이러한 경우는, AMF 가 가지고 있는 정보와 UE 가 가지고 있는 정보가 일치하지 않거나, AMF 가 UE 에 대해서 PLMN assigned UE radio information 을 할당해주고자 하는 경우 발생할 수 있다. In addition, in step 415, the target AMF 111 provides network assigned PLMN associated UE radio information (eg, network assigned UE radio information, or PLMN assigned UE radio information or PLMN assigned UE radio capability identity information IE (information element)). It can also be created and assigned to the UE. This case may occur when the information possessed by the AMF and the information possessed by the UE do not match, or when the AMF attempts to allocate PLMN assigned UE radio information to the UE.
예를 들면, PLMN assigned UE radio capability identity information IE는 information element의 PLMN assigned UE radio capability identity information value 파트를 포함하도록 다음의 표 4와 같이 구성될 수 있다. For example, the PLMN assigned UE radio capability identity information IE may be configured as shown in Table 4 below to include the PLMN assigned UE radio capability identity information value part of the information element.
<표 4><Table 4>
Figure PCTKR2020013034-appb-img-000004
Figure PCTKR2020013034-appb-img-000004
417 과정에서, target AMF (111)로부터 target 5G-RAN (103)으로 handover request 메시지가 전송될 수 있다. handover request 메시지에는 PLMN assigned UE radio capability identity information을 포함한 information element 즉 파라미터(information element), UE radio capability information identity, UE radio capability 관련 파라미터들이 포함될 수 있다. In step 417, a handover request message may be transmitted from the target AMF 111 to the target 5G-RAN 103. The handover request message may include information elements including PLMN assigned UE radio capability identity information, that is, parameters, UE radio capability information identity, and UE radio capability related parameters.
419 과정에서, target 5G-RAN (103)은 transparent container를 생성할 수 있다. transparent container는 이후 RRC 메시지에서 사용되는 정보로서 PLMN assigned UE radio capability identity information가 포함될 수 있다. In step 419, the target 5G-RAN 103 may create a transparent container. The transparent container is information used in the later RRC message and may include PLMN assigned UE radio capability identity information.
421 과정에서는 target 5G RAN (103)이 target AMF (111)로 handover request acknowledgement message 를 전송하며, 이때 전술한 419 과정에서 생성한, PLMN assigned UE radio capability identity information를 포함하는 transparent container가 전송될 수 있다. In step 421, the target 5G RAN 103 transmits a handover request acknowledgment message to the target AMF 111, and at this time, a transparent container including PLMN assigned UE radio capability identity information generated in step 419 may be transmitted. .
423 과정에서 target AMF (111)는 source MME (181)로 forward relocation response 메시지를 전송할 수 있다. In step 423, the target AMF 111 may transmit a forward relocation response message to the source MME 181.
425 과정에서 source MME (183)는 source eNB (181)로 handover command 를 전송하는데 이 때 419 과정에서 만든 transparent container가 전송될 수 있다. In step 425, the source MME 183 transmits a handover command to the source eNB 181, in which case the transparent container created in step 419 may be transmitted.
이후 427 과정에서 PLMN assigned UE radio capability identity information 를 포함하는 handover command 가 source eNB (181) 로부터 UE (101)로 전송될 수 있다. Thereafter, in step 427, a handover command including PLMN assigned UE radio capability identity information may be transmitted from the source eNB 181 to the UE 101.
이후 431 과정에서 UE (101)는 target 5G RAN(103)으로 handover confirm을 전송할 수 있다. Thereafter, in step 431, the UE 101 may transmit a handover confirm to the target 5G RAN 103.
433 과정에서 target 5G RAN (103)은 radio information capability 정보를 확인할 수 있다. 이는 target 5G RAN (103)이 가지고 있는 정보와 UE 가 가지고 있는 정보가 일치하는지를 check 하고자 함이다. In step 433, the target 5G RAN 103 may check radio information capability information. This is to check whether the information possessed by the target 5G RAN 103 matches the information possessed by the UE.
435 과정에서 target 5G-RAN (103)에서 target AMF (111)로 handover Notify 메시지가 전송될 수 있다. In step 435, a handover Notify message may be transmitted from the target 5G-RAN 103 to the target AMF 111.
이후 UE (101) 는 451 과정에서 target AMF (111)로 UE radio capability information element를 포함한 registration request를 전송할 수 있다. 이 때 포함되는 UE radio capability information은 UE 가 가지고 있는 PLMN assigned UE radio capability identity information 일 수 도 있다. 다른 일 실시예로 UE radio capability information은 UE (101)가 가진 UE radio access capability information, 즉 UE radio capability identity 일 수도 있다.Thereafter, the UE 101 may transmit a registration request including a UE radio capability information element to the target AMF 111 in step 451. The UE radio capability information included at this time may be PLMN assigned UE radio capability identity information possessed by the UE. In another embodiment, the UE radio capability information may be UE radio access capability information possessed by the UE 101, that is, UE radio capability identity.
도 5는 본 개시의 일 실시예에 따른 5G 네트워크 환경에서 NAS 메시지 정보 처리 및 통신 방법을 설명하기 위한 도면이다. 5 is a diagram illustrating a method of processing and communicating NAS message information in a 5G network environment according to an embodiment of the present disclosure.
501 과정에서 UE (101)는 5G 네트워크에서 AMF(111-2) 및 SMF 와 통신을 하고 있는 중이다. In step 501, the UE 101 is communicating with the AMF 111-2 and the SMF in the 5G network.
511 과정에서, UE(101)는 5G 네트워크에서 4G 네트워크로 이동하여 Tracking Area Update request를 수행할 수 있다. 이 때, UE(101)는 MME 로 tracking area update 를 보내면서 UE network capability 가 UE radio information 을 지원하는지 여부에 대해 network 에 알려준다. In step 511, the UE 101 may perform a Tracking Area Update request by moving from the 5G network to the 4G network. At this time, the UE 101 informs the network of whether the UE network capability supports UE radio information while sending a tracking area update to the MME.
하기의 표 5에서, UE(101)는 Tracking Area Update Request 메시지에 포함된 UE network capability information element 를 이용하여 radio access 관련 정보를 전달할 수 있다. In Table 5 below, the UE 101 may transmit radio access related information by using the UE network capability information element included in the Tracking Area Update Request message.
<표 5> Tracking Area Update Request 메시지<Table 5> Tracking Area Update Request message
Figure PCTKR2020013034-appb-img-000005
Figure PCTKR2020013034-appb-img-000005
하기의 표 6에서 확인할 수 있듯이, UE radio capability 관련 정보를 전달할 수 있는 능력이 있음을 알리기 위하여 UE network capability information element 에 UE radio capability 관련 정보를 알려주기 위한 bit 가 추가될 수 있다. As can be seen in Table 6 below, a bit for informing UE radio capability related information may be added to the UE network capability information element in order to inform that there is an ability to deliver UE radio capability related information.
즉 UE(101)는 UE radio capability 관련 정보(예를 들어, UE radio capability identity 관련 정보를 UE 가 network 에 제공할 수 있음을 알려주기 위한 정보, 혹은 UE radio capability identity 지원 indication)를 UE(101)가 network 으로 보내는 tracking area update request 에 포함시켜 전송할 수 있다. That is, the UE 101 provides UE radio capability related information (eg, information for informing that the UE can provide UE radio capability identity related information to the network, or UE radio capability identity support indication). It can be transmitted by including it in the tracking area update request sent to the network.
표 6은 UE network capability information element 에 UE radio capability(예를 들면 UE radio capability identity )를 제공할 수 있음을 알려주는 일 예시이다. Table 6 is an example informing that UE radio capability (eg, UE radio capability identity) can be provided to a UE network capability information element.
<표 6> UE network capability information element<Table 6> UE network capability information element
Figure PCTKR2020013034-appb-img-000006
Figure PCTKR2020013034-appb-img-000006
UE network capability information element (IE)의 파라미터 정보 중 UE radio information 은 표 7의 UE radio information 정보, 예를 들면 UE radio capability identity 에 대한 정보를 제공하는 기능을 수행하는지 여부를 나타내며, 따라서 표 7의 UE radio information의 값 및 그 값의 해석은 다음과 같다. Among the parameter information of the UE network capability information element (IE), the UE radio information indicates whether the UE radio information of Table 7, for example, performs a function of providing information on the UE radio capability identity, and thus, the UE of Table 7 The value of radio information and its interpretation are as follows.
<표 7> UE radio information IE<Table 7> UE radio information IE
Figure PCTKR2020013034-appb-img-000007
Figure PCTKR2020013034-appb-img-000007
521 과정에서 MME 는 UE (101)로 security Mode command 메시지를 보낼 수 있다. In step 521, the MME may send a security mode command message to the UE 101.
523 과정에서 UE (101)는 MME 로 security mode complete 메시지를 보내면서 UE radio capability identity 관련 정보를 전송할 수 있다. In step 523, the UE 101 may transmit UE radio capability identity related information while sending a security mode complete message to the MME.
<표 8> security mode complete 메시지 <Table 8> security mode complete message
Figure PCTKR2020013034-appb-img-000008
Figure PCTKR2020013034-appb-img-000008
표 9 에 도시된, UE radio capability info 관련 정보는 UE (101)에서 MME 로 보내는 UE radio capability information 으로서 UE radio capability identity 관련 정보로서 다음과 같이 코딩 및 해석될 수 있다. As shown in Table 9, UE radio capability info related information is UE radio capability information transmitted from the UE 101 to the MME, and may be coded and interpreted as follows as UE radio capability identity related information.
<표 9> UE Radio capability information (예를 들면 UE radio capability identity 관련 정보 information element)<Table 9> UE Radio capability information (e.g., UE radio capability identity related information information element)
Figure PCTKR2020013034-appb-img-000009
Figure PCTKR2020013034-appb-img-000009
535 과정에서 UE (101)는 MME 로 Tracking Area Update Accept 메시지를 보내면서 PLMN assigned UE radio information, UE radio information indication, cause 등의 정보를 보낼 수 있다. In step 535, the UE 101 may transmit information such as PLMN assigned UE radio information, UE radio information indication, and cause while sending a Tracking Area Update Accept message to the MME.
MME는 UE (101)가 MME 로 전달한 정보에 대해서 MME에 UE 관련 해당 정보가 있는지, 그리고 그 정보가 valid 한지를 판단할 수 있다. The MME may determine whether there is UE-related information in the MME with respect to the information transmitted by the UE 101 to the MME, and whether the information is valid.
MME 는 판단 결과 해당 정보가 valid 하지 않은 경우, 또는 MME 가 UE 에 PLMN assigned UE radio 관련 정보 (예를 들면 PLMN assigned UE radio identity 관련 정보)를 제공할 수 있는 경우에, 새로운 정보를 생성할 수 있다. 다른 예에 따라, MME 는 판단 결과 해당 정보가 valid 하지 않은 경우, 또는 MME 가 UE 에 PLMN assigned UE radio 관련 정보 (예를 들면 PLMN assigned UE radio identity 관련 정보)를 생성 내지, 저장되었던 관련 정보를 제공할 수 있는 경우, PLMN assigned UE radio 관련 정보 (예를 들어, PLMN assigned UE radio identity 관련 정보)를 MME 가 UE 로 보내는 Tracking Area Update Accept 메시지에 포함시켜 제공할 수 있다. Tracking Area Update Accept 메시지에 포함되는 정보는 아래의 표 10과 같다. The MME may generate new information when the information is not valid as a result of the determination, or when the MME can provide PLMN assigned UE radio related information (eg, PLMN assigned UE radio identity related information) to the UE. . According to another example, when the MME is determined that the information is not valid, or the MME generates PLMN assigned UE radio related information (e.g., PLMN assigned UE radio identity related information) to the UE, or provides the stored related information. If possible, PLMN assigned UE radio related information (eg, PLMN assigned UE radio identity related information) may be provided by including in the Tracking Area Update Accept message sent from the MME to the UE. Information included in the Tracking Area Update Accept message is shown in Table 10 below.
<표 10> Tracking Area Update Accept 메시지 <Table 10> Tracking Area Update Accept Message
Figure PCTKR2020013034-appb-img-000010
Figure PCTKR2020013034-appb-img-000010
또한, radio information 에 대한 정보는 하기의 표 11 및 표 12와 같이 코딩 및 해석될 수 있다. 일 예로, radio information에는 PLMN assigned UE radio capability information (예를 들어, PLMN assigned UE radio capability identity information)이 포함될 수 있다. In addition, information on radio information may be coded and interpreted as shown in Tables 11 and 12 below. For example, radio information may include PLMN assigned UE radio capability information (eg, PLMN assigned UE radio capability identity information).
다른 예에 따라, radio information에는 표 13 및 표 14와 같이, UE radio capability information (예를 들어, UE radio capability identity information)이 포함될 수 있다. 즉, UE radio capability information 은 UE 가 보낸 값일 수도 있고, source network 에서 target network (예를 들어, 4G 네트워크)로 핸드오버 또는 mobility 이동을 하면서 UE 에 대해 할당된 값일 수도 있다. According to another example, radio information may include UE radio capability information (eg, UE radio capability identity information), as shown in Tables 13 and 14. That is, the UE radio capability information may be a value sent by the UE, or may be a value allocated to the UE while performing handover or mobility movement from the source network to the target network (eg, 4G network).
<표 11> Radio info IE 즉 PLMN assigned UE radio capability IE (information element) <Table 11> Radio info IE that is PLMN assigned UE radio capability IE (information element)
Figure PCTKR2020013034-appb-img-000011
Figure PCTKR2020013034-appb-img-000011
표 11에 포함된 radio 관련 정보의 radio information value 부분은 하기의 표 12와 같이 코딩 및 해석 될 수 있다. 즉 PLMN assigned UE radio capability information element 의 PLMN assigned UE radio capability 의 value 부분은 하기 표 12와 같이 코딩 및 해석 될 수 있다. The radio information value part of the radio-related information included in Table 11 can be coded and interpreted as shown in Table 12 below. That is, the value part of the PLMN assigned UE radio capability of the PLMN assigned UE radio capability information element can be coded and interpreted as shown in Table 12 below.
<표 12> radio information 의 value 부분 즉 PLMN assigned UE radio capability information element 의 value 부분 <Table 12> value part of radio information, that is, value part of PLMN assigned UE radio capability information element
Figure PCTKR2020013034-appb-img-000012
Figure PCTKR2020013034-appb-img-000012
<표 13> Radio info IE <Table 13> Radio info IE
Figure PCTKR2020013034-appb-img-000013
Figure PCTKR2020013034-appb-img-000013
표 13에 포함된 radio 관련 정보의 radio information value 는 하기의 표 14와 같이 코딩 및 해석 될 수 있다. The radio information value of radio-related information included in Table 13 can be coded and interpreted as shown in Table 14 below.
<표 14> radio information value <Table 14> radio information value
Figure PCTKR2020013034-appb-img-000014
Figure PCTKR2020013034-appb-img-000014
MME 에서 UE (101)로 Tracking Area Update Accept 메시지를 통해서 Radio information indication 을 알려줄 수 있다. 일 실시예에 따른 radio information indication 은 Network 에서 UE 의 UE radio capability 관련 정보 (예를 들어, UE radio capability identity 관련 정보)를 support 할 수 있는지 여부를 나타낼 수 있다. 이러한 radio access information indication 은 다음의 표 15와 같이 코딩되며 표 16 같이 해석된다. Radio information indication may be informed from the MME to the UE 101 through a Tracking Area Update Accept message. The radio information indication according to an embodiment may indicate whether the network can support UE radio capability related information (eg, UE radio capability identity related information). This radio access information indication is coded as shown in Table 15 below and interpreted as shown in Table 16.
<표 15> radio information indication information element<Table 15> radio information indication information element
Figure PCTKR2020013034-appb-img-000015
Figure PCTKR2020013034-appb-img-000015
<표 16> radio information indication information element 의 값 및 그 값의 해석<Table 16> radio information indication information element value and its interpretation
Figure PCTKR2020013034-appb-img-000016
Figure PCTKR2020013034-appb-img-000016
또한 에러가 발생하는 경우 Tracking Area Update Accept 메시지의 error code 를 통해서, UE (101)에 에러가 발생했음을 알려줄 수 있다. 표 17에 도시된 바와 같이, UE(101)는 MME 가 보내준 메시지 안에 포함된 error code 즉 error cause 를 통해 error가 발생한 원인을 확인할 수 있다. In addition, when an error occurs, it may be notified that an error has occurred to the UE 101 through the error code of the Tracking Area Update Accept message. As shown in Table 17, the UE 101 can check the cause of the error through the error code included in the message sent by the MME, that is, the error cause.
그리고, MME 는 UE에 대한 이전의 radio access 관련 정보를 delete 하고 갱신된 정보를 저장할 수 있다. In addition, the MME may delete previous radio access related information for the UE and store the updated information.
<표 17> EMM error cause <Table 17> EMM error cause
Figure PCTKR2020013034-appb-img-000017
Figure PCTKR2020013034-appb-img-000017
도 6은 본 개시의 일 실시예에 따른 5G 네트워크 환경에서 NAS 메시지 정보 처리 및 통신 방법을 설명하기 위한 도면이다. 6 is a diagram illustrating a method of processing and communicating NAS message information in a 5G network environment according to an embodiment of the present disclosure.
601 과정에서 UE (101) 는 5G network 에서 AMF, SMF 와 통신을 수행할 수 있다. In step 601, the UE 101 may communicate with AMF and SMF in a 5G network.
611 과정에서 UE(101)는 5G 네트워크에서 4G 네트워크로 이동하여 Tracking Area Update request 를 수행한다. 이 때 UE 는 MME 로 tracking area update request 메시지를 보내면서 UE network capability information element (IE)에 UE가 UE radio information 을 지원하는지 여부를 비트값의 세팅에 의해 네트워크에 알려줄 수 있다. In step 611, the UE 101 moves from the 5G network to the 4G network and performs a Tracking Area Update request. At this time, the UE may inform the network of whether the UE supports UE radio information in the UE network capability information element (IE) by sending a tracking area update request message to the MME by setting a bit value.
UE(101)는 하기의 표 18과 같이, Tracking Area Update Request 메시지에 포함된 UE network capability information element 를 이용하여 radio access 관련 정보를 전달 할 수 있다. As shown in Table 18 below, the UE 101 may transmit radio access related information by using the UE network capability information element included in the Tracking Area Update Request message.
<표 18> Tracking Area Update Request 메시지<Table 18> Tracking Area Update Request message
Figure PCTKR2020013034-appb-img-000018
Figure PCTKR2020013034-appb-img-000018
하기의 표 19에서와 같이, UE network capability information element 를 통해 UE radio capability 관련 정보를 전달 할 수 있는 능력이 있음을 알리기 위하여, UE network capability information element 에 UE radio capability 관련 정보를 알려주기 위한 bit 가 추가될 수 있다. As shown in Table 19 below, a bit to inform UE radio capability related information is added to the UE network capability information element in order to inform that there is the ability to transmit UE radio capability related information through the UE network capability information element. Can be.
즉, UE radio capability 관련 정보(예를 들어, UE radio capability identity 관련 정보를 UE 가 network 에 제공할 수 있음을 알려주기 위한 정보, 혹은 UE radio capability identity 지원 indication)를 UE 가 network 으로 보내는 tracking area update request에 포함시켜 전송할 수 있다. That is, UE radio capability related information (e.g., information for notifying that the UE can provide UE radio capability identity related information to the network, or UE radio capability identity support indication) is sent by the UE to the network tracking area update It can be included in the request and transmitted.
표 19는 UE radio capability(예를 들면 UE radio capability identity)를 제공하는 UE network capability information element의 일 예시를 나타낸다. Table 19 shows an example of a UE network capability information element providing UE radio capability (eg, UE radio capability identity).
<표 19> UE network capability IEI<Table 19> UE network capability IEI
Figure PCTKR2020013034-appb-img-000019
Figure PCTKR2020013034-appb-img-000019
UE network capability IE 안에 있는 UE radio information 정보는 다음의 표 20 같이 코딩되며 해석될 수 있다. UE radio information information in the UE network capability IE can be coded and interpreted as shown in Table 20 below.
<표 20> UE network capability IE의 UE radio information (의 값 및 그 값의 해석 <Table 20> Value of UE radio information (of UE network capability IE and interpretation of the value)
Figure PCTKR2020013034-appb-img-000020
Figure PCTKR2020013034-appb-img-000020
621 과정에서 MME 는 UE (101)로 security Mode command 메시지를 전송할 수 있다. In step 621, the MME may transmit a security mode command message to the UE 101.
623 과정에서 UE (101)는 MME 로 UE radio capability identity 관련 정보를 포함한 security mode complete 메시지를 전송할 수 있다. In step 623, the UE 101 may transmit a security mode complete message including UE radio capability identity related information to the MME.
<표 21> security mode complete 메시지 <Table 21> security mode complete message
Figure PCTKR2020013034-appb-img-000021
Figure PCTKR2020013034-appb-img-000021
한편, 하기의 표 22는 security mode complete 메시지를 통해 전송되는 UE radio capability info 관련 정보에 관한 설명이다. 이는 UE (101)에서 MME 로 보내는 UE radio capability information 으로서 예를 들어, UE radio capability identity 관련 정보를 포함할 수 있다. Meanwhile, Table 22 below is a description of UE radio capability info related information transmitted through a security mode complete message. This is UE radio capability information transmitted from the UE 101 to the MME, and may include, for example, UE radio capability identity related information.
<표 22> UE Radio capability information (예를 들면 UE radio capability identity 관련 정보 information element)<Table 22> UE Radio capability information (eg, UE radio capability identity related information information element)
Figure PCTKR2020013034-appb-img-000022
Figure PCTKR2020013034-appb-img-000022
635 과정에서 MME는 UE(101)로 Tracking Area Update Accept 메시지를 보내면서 PLMN assigned UE radio information, UE radio information indication, cause 등의 정보를 보낼 수 있다. In step 635, the MME may transmit information such as PLMN assigned UE radio information, UE radio information indication, and cause while sending a Tracking Area Update Accept message to the UE 101.
MME는 UE (101)가 MME 로 전달한 정보에 대해서 MME에 UE 관련 해당 정보가 있는지, 그리고 그 정보가 valid 한지를 판단한다. MME 가 판단해서 해당 정보가 valid 하지 않은 경우, 혹은 MME 가 UE에 PLMN assigned UE radio 관련 정보 (예를 들어, PLMN assigned UE radio identity 관련 정보)를 제공할 수 있는 경우, MME는 새로운 정보를 생성할 수 있다. 다른 예에 따라, MME가 판단해서 해당 정보가 valid 하지 않은 경우, 혹은 MME 가 UE 에 PLMN assigned UE radio 관련 정보 (예를 들어, PLMN assigned UE radio identity 관련 정보)를 제공할 수 있는 경우, MME 는 PLMN assigned UE radio 관련 정보 (예를 들어, PLMN assigned UE radio identity 관련 정보)를 하기의 표 23과 같이 MME 가 UE(101) 로 보내는 Tracking Area Update Accept 메시지에 포함시켜 전송할 수 있다. The MME determines whether there is UE-related information in the MME with respect to the information transmitted by the UE 101 to the MME, and whether the information is valid. If the MME determines that the information is not valid, or if the MME can provide PLMN assigned UE radio related information (eg, PLMN assigned UE radio identity related information) to the UE, the MME will generate new information. I can. According to another example, if the MME determines that the information is not valid, or if the MME can provide PLMN assigned UE radio related information (e.g., PLMN assigned UE radio identity related information) to the UE, the MME is PLMN assigned UE radio related information (eg, PLMN assigned UE radio identity related information) may be included in the Tracking Area Update Accept message sent from the MME to the UE 101 as shown in Table 23 below and transmitted.
<표 23> Tracking Area Update Accept 메시지 <Table 23> Tracking Area Update Accept Message
Figure PCTKR2020013034-appb-img-000023
Figure PCTKR2020013034-appb-img-000023
또한 UE radio information 에 대한 정보는 다음의 표 24와 같이 코딩 및 해석될 수 있다. 이러한 radio information 은 UE radio capability information (예를 들어, UE radio capability identity information) 등이 그 예가 될 수 있다. In addition, information on UE radio information may be coded and interpreted as shown in Table 24 below. Such radio information may be, for example, UE radio capability information (eg, UE radio capability identity information).
<표24> UE Radio info IE <Table 24> UE Radio info IE
Figure PCTKR2020013034-appb-img-000024
Figure PCTKR2020013034-appb-img-000024
radio 관련 정보의 UE radio capability information value 는 다음과 같이 코딩 및 해석 될 수 있다. The UE radio capability information value of radio-related information can be coded and interpreted as follows.
<표 25> UE radio capability information value <Table 25> UE radio capability information value
Figure PCTKR2020013034-appb-img-000025
Figure PCTKR2020013034-appb-img-000025
MME 는 UE 로 Tracking Area Update Accept 메시지를 통해서 Radio information indication 을 알려줄 수 있다. 이러한 radio information indication 은 Network 이 UE 의 UE radio capability 관련 정보 (예를 들어, UE radio capability identity 관련 정보)를 support 할 수 있는지 여부를 나타낼 수 있다. The MME may inform the UE of the Radio information indication through the Tracking Area Update Accept message. This radio information indication may indicate whether the network can support UE radio capability related information (eg, UE radio capability identity related information) of the UE.
이러한 radio access information indication 은 다음의 표 26과 같이 코딩 되며 표 27과 같이 해석될 수 있다. This radio access information indication is coded as shown in Table 26 below and can be interpreted as shown in Table 27.
<표 26> radio information indication information element <Table 26> radio information indication information element
Figure PCTKR2020013034-appb-img-000026
Figure PCTKR2020013034-appb-img-000026
<표 27> radio information indication information element 의 값 및 그 값의 해석 <Table 27> radio information indication information element value and interpretation of the value
Figure PCTKR2020013034-appb-img-000027
Figure PCTKR2020013034-appb-img-000027
또한, MME는 에러가 발생하는 경우 Tracking Area Update Accept 메시지의 error code 를 통해서, UE (101)에 에러가 발생했음을 알려줄 수 있다. 그리고, MME 는 UE 에 대한 이전의 radio access 관련 정보를 delete 하고 갱신된 정보를 저장할 수 있다. In addition, when an error occurs, the MME may inform the UE 101 that an error has occurred through the error code of the Tracking Area Update Accept message. In addition, the MME may delete previous radio access related information for the UE and store updated information.
<표 28> EMM error cause<Table 28> EMM error cause
Figure PCTKR2020013034-appb-img-000028
Figure PCTKR2020013034-appb-img-000028
도 7은 일 실시예에 따른 UE(700)의 구조를 도시한 블록도이다.7 is a block diagram illustrating a structure of a UE 700 according to an embodiment.
도 7을 참조하면, UE(700)는 송수신부(710), 프로세서(720) 및 메모리(730)를 포함할 수 있다. 전술한 UE의 통신 방법에 따라, 송수신부(710), 프로세서(720) 및 메모리(730)가 동작할 수 있다. 다만, UE(700)의 구성 요소가 전술한 예에 한정되는 것은 아니다. 예를 들어, UE(700)는 전술한 구성 요소들 보다 더 많은 구성 요소(예를 들어, NIC(network interface controller))를 포함하거나 더 적은 구성 요소를 포함할 수도 있다. 뿐만 아니라 송수신부(710), 프로세서(720) 및 메모리(730)는 하나의 칩(chip) 형태로 구현될 수도 있다. Referring to FIG. 7, the UE 700 may include a transceiver 710, a processor 720, and a memory 730. According to the above-described UE communication method, the transceiver 710, the processor 720, and the memory 730 may operate. However, the components of the UE 700 are not limited to the above-described example. For example, the UE 700 may include more or fewer components than the above-described components (eg, network interface controller (NIC)). In addition, the transmission/reception unit 710, the processor 720, and the memory 730 may be implemented in the form of a single chip.
송수신부(710)는 네트워크 엔티티(예를 들어, MME)와 신호를 송수신할 수 있다. 여기에서, 신호는 도 1 내지 도 6을 참조하여 전술한 적어도 하나의 메시지를 포함할 수 있다. 이를 위해, 송수신부는 전송되는 신호의 주파수를 상승 변환 및 증폭하는 RF 송신기와, 수신되는 신호를 저 잡음 증폭하고 주파수를 하강 변환하는 RF 수신기 등으로 구성될 수 있다. 다만, 이는 송수신부의 일 실시예일뿐이며, 송수신부의 구성 요소가 RF 송신기 및 RF 수신기에 한정되는 것은 아니다.The transceiver 710 may transmit and receive signals with a network entity (eg, MME). Here, the signal may include at least one message described above with reference to FIGS. 1 to 6. To this end, the transceiving unit may include an RF transmitter that up-converts and amplifies a frequency of a transmitted signal, and an RF receiver that amplifies a received signal with low noise and down-converts a frequency. However, this is only an embodiment of the transmission/reception unit, and components of the transmission/reception unit are not limited to the RF transmitter and the RF receiver.
또한, 송수신부는 무선 채널을 통해 신호를 수신하여 프로세서(720)로 출력하고, 프로세서(720)로부터 출력되는 신호를 무선 채널을 통해 전송할 수 있다. In addition, the transmission/reception unit may receive a signal through a wireless channel, output it to the processor 720, and transmit a signal output from the processor 720 through a wireless channel.
프로세서(720)는 UE(700)가 핸드오버 수행 시, UE(700)에 관한 radio access information을 처리하기 위한 소프트웨어를 구동(drive)시킬 수 있는 하드웨어로서, 일 예시로, 하나 이상의 CPU(central processing unit)가 프로세서(720)에 포함될 수 있다. 프로세서(720)는 메모리(730)에 저장된 소프트웨어를 구동시킬 수 있으며, 이 때, 소프트웨어에는 하나 이상의 인스트럭션으로 구성된 핸드오버 모듈 및 무선 접속 정보 관리 모듈이 포함될 수 있다. 핸드오버 모듈은 UE가 서로 다른 네트워크로 이동하는 과정에서 발생하는 핸드오버 관련 데이터를 처리할 수 있다. 또한, 무선 접속 정보 관리 모듈은 UE의 capability information와 같은 UE 자체의 정보 또는 error cause 등과 같은 네트워크 상태 정보를 처리할 수 있다. 한편, 핸드오버 모듈 및 무선 접속 정보 관리 모듈은 프로세서(720)와 구분되는 별도의 칩 형태로 제작될 수도 있다. The processor 720 is hardware capable of driving software for processing radio access information on the UE 700 when the UE 700 performs a handover, and as an example, one or more CPUs (central processing unit) may be included in the processor 720. The processor 720 may drive software stored in the memory 730, and in this case, the software may include a handover module composed of one or more instructions and a wireless access information management module. The handover module may process handover-related data generated while the UE moves to different networks. In addition, the radio access information management module may process information of the UE itself such as capability information of the UE or network state information such as an error cause. Meanwhile, the handover module and the wireless access information management module may be manufactured in the form of separate chips separated from the processor 720.
메모리(730)는 UE(700)의 동작에 필요한 소프트웨어 및 데이터를 저장할 수 있다. 또한, 메모리(730)는 단말에서 획득되는 신호에 포함된 제어 정보 또는 데이터를 저장할 수 있다. 메모리는 롬(ROM), 램(RAM), 하드디스크, CD-ROM 및 DVD 등과 같은 저장 매체 또는 저장 매체들의 조합으로 구성될 수 있다.The memory 730 may store software and data necessary for the operation of the UE 700. In addition, the memory 730 may store control information or data included in a signal acquired from the terminal. The memory may be composed of a storage medium such as ROM, RAM, hard disk, CD-ROM, and DVD, or a combination of storage media.
도 8은 일 실시예에 따른 네트워크 엔티티(800)의 구조를 도시한 블록도이다.8 is a block diagram showing the structure of a network entity 800 according to an embodiment.
도 8을 참조하면, 네트워크 엔티티(800)는 송수신부(810), 프로세서(820) 및 메모리(830)를 포함할 수 있다. 네트워크 엔티티(800)는 도 1 내지 도 6을 참조하여 전술한 MME, AMG, eNB 및 5G RAN 중 어느 하나일 수 있다. 전술한 MME, AMG, eNB 및 5G RAN 중 어느 하나의 통신 방법에 따라, 송수신부(810), 프로세서(820) 및 메모리(830)가 동작할 수 있다. 다만, 네트워크 엔티티 (800)의 구성 요소가 전술한 예에 한정되는 것은 아니다. 예를 들어, 네트워크 엔티티 (800)는 전술한 구성 요소들 보다 더 많은 구성 요소(예를 들어, NIC(network interface controller))를 포함하거나 더 적은 구성 요소를 포함할 수도 있다. 뿐만 아니라 송수신부(810), 프로세서(820) 및 메모리(830)는 하나의 칩(chip) 형태로 구현될 수도 있다. Referring to FIG. 8, the network entity 800 may include a transceiver 810, a processor 820, and a memory 830. The network entity 800 may be any one of MME, AMG, eNB, and 5G RAN described above with reference to FIGS. 1 to 6. According to any one of the aforementioned MME, AMG, eNB, and 5G RAN communication methods, the transceiver 810, the processor 820, and the memory 830 may operate. However, the constituent elements of the network entity 800 are not limited to the above-described example. For example, the network entity 800 may include more or fewer components than the above-described components (eg, network interface controller (NIC)). In addition, the transmission/reception unit 810, the processor 820, and the memory 830 may be implemented in the form of a single chip.
송수신부(810)는 다른 네트워크 엔티티 또는 UE와 신호를 송수신할 수 있다. 여기에서, 신호는 도 1 내지 도 6을 참조하여 전술한 적어도 하나의 메시지를 포함할 수 있다. 이를 위해, 송수신부는 전송되는 신호의 주파수를 상승 변환 및 증폭하는 RF 송신기와, 수신되는 신호를 저 잡음 증폭하고 주파수를 하강 변환하는 RF 수신기 등으로 구성될 수 있다. 다만, 이는 송수신부의 일 실시예일뿐이며, 송수신부의 구성 요소가 RF 송신기 및 RF 수신기에 한정되는 것은 아니다.The transceiver 810 may transmit and receive signals with other network entities or UEs. Here, the signal may include at least one message described above with reference to FIGS. 1 to 6. To this end, the transceiving unit may include an RF transmitter that up-converts and amplifies a frequency of a transmitted signal, and an RF receiver that amplifies a received signal with low noise and down-converts a frequency. However, this is only an embodiment of the transmission/reception unit, and components of the transmission/reception unit are not limited to the RF transmitter and the RF receiver.
또한, 송수신부는 무선 채널을 통해 신호를 수신하여 프로세서(820)로 출력하고, 프로세서(820)로부터 출력되는 신호를 무선 채널을 통해 전송할 수 있다. In addition, the transmission/reception unit may receive a signal through a wireless channel, output it to the processor 820, and transmit a signal output from the processor 820 through the wireless channel.
프로세서(820)는 UE가 핸드오버 수행 시, UE에 관한 radio access information을 처리하기 위한 소프트웨어를 구동(drive)시킬 수 있는 하드웨어로서, 일 예시로, 하나 이상의 CPU(central processing unit)가 프로세서(820)에 포함될 수 있다. 프로세서(820)는 메모리(830)에 저장된 소프트웨어를 구동시킬 수 있으며, 이 때, 소프트웨어에는 하나 이상의 인스트럭션으로 구성된 핸드오버 모듈 및 무선 접속 정보 관리 모듈이 포함될 수 있다. 핸드오버 모듈은 UE가 서로 다른 네트워크로 이동하는 과정에서 발생하는 핸드오버 관련 데이터를 처리할 수 있다. 또한, 무선 접속 정보 관리 모듈은 error cause 등과 같은 네트워크 상태 정보 또는 UE의 capability information 정보 등을 처리할 수 있다. 한편, 핸드오버 모듈 및 무선 접속 정보 관리 모듈은 프로세서(820)와 구분되는 별도의 칩 형태로 제작될 수도 있다. The processor 820 is hardware capable of driving software for processing radio access information on the UE when the UE performs a handover, and as an example, one or more central processing units (CPUs) are the processor 820 ) Can be included. The processor 820 may drive software stored in the memory 830, and in this case, the software may include a handover module composed of one or more instructions and a wireless access information management module. The handover module may process handover-related data generated while the UE moves to different networks. In addition, the radio access information management module may process network state information such as an error cause or capability information of the UE. Meanwhile, the handover module and the wireless access information management module may be manufactured in the form of separate chips separated from the processor 820.
메모리(830)는 네트워크 엔티티(800)의 동작에 필요한 소프트웨어 및 데이터를 저장할 수 있다. 또한, 메모리(830)는 단말에서 획득되는 신호에 포함된 제어 정보 또는 데이터를 저장할 수 있다. 메모리(830)는 롬(ROM), 램(RAM), 하드디스크, CD-ROM 및 DVD 등과 같은 저장 매체 또는 저장 매체들의 조합으로 구성될 수 있다.The memory 830 may store software and data necessary for the operation of the network entity 800. In addition, the memory 830 may store control information or data included in a signal obtained from the terminal. The memory 830 may be composed of a storage medium such as a ROM, a RAM, a hard disk, a CD-ROM, and a DVD, or a combination of storage media.
UE 는 UE radio info 즉 UE radio capability identity 관련 기능을 support 하지 않는 LTE network 즉 MME 에서 UE 가 5G 의 UE radio info 즉 UE radio capability identity 를 support 하는 network의 AMF 로 이동할 수 있다. The UE may move from an LTE network that does not support UE radio info, that is, a UE radio capability identity-related function, that is, an MME, to the AMF of a network that supports UE radio info of 5G, that is, a network that supports UE radio capability identity.
도 9에 도시된 바와 같이 UE 가 UE radio info 를 support 하지 않는 network 에서 있다가 UE radio information 즉 UE radio capability identity 를 support 하는 network 으로 이동하는 경우에 다음과 같은 도 10과 같은 과정이 가능하다. As shown in FIG. 9, when the UE is in a network that does not support UE radio info and then moves to a network that supports UE radio information, that is, UE radio capability identity, the following process as shown in FIG. 10 is possible.
즉 UE가 UE radio capability identity 에 대한 정보를 제공하는 기능을 support 함에도 불구하고, 이전에 접속하였던 LTE 네트웍에서 그러한 기능을 제공하지 않았으므로 이러한 기능을 제공하는 5G network 으로 이동하여서 해당 기능을 다시 activation 하여 사용하여야 한다.That is, even though the UE supports the function of providing information on the UE radio capability identity, the LTE network that was previously accessed did not provide such a function, so move to a 5G network that provides this function and reactivate the function. Should be used.
1001 과정에서 UE 가 LTE MME 네트웍에서 AMF (111)이 있는 네트웍으로 handover 혹은 idle mode 상태에서 이동하였다. In step 1001, the UE moves from the LTE MME network to the network with the AMF 111 in the handover or idle mode.
1003 과정에서 Source MME 에서 target AMF (111) 로 UE 의 radio capability 관련 정보를 context transfer 전달 되어왔다. 이는 MME 가 UE radio capability identity 를 지원하지 않기 때문에 MME 에서 AMF(111) 로는 UE 의 radio capability 관련 정보가 전체 (full) 정보로 전달 된다. 즉 이러한 정보는 radio access 관련된 parameter 들이다. 한편 이러한 정보 전달은 target AMF 가 source MME 로 요청을 해서 source MME 에서 target AMF 로 전달 될 수도 있다. 또한 일 실시예로 source MME 가 target AMF 로 context transfer 를 진행할 수도 있다. In step 1003, context transfer information related to the radio capability of the UE from the source MME to the target AMF 111 has been delivered. This is because the MME does not support the UE radio capability identity, the radio capability-related information of the UE is transmitted from the MME to the AMF 111 as full information. That is, these information are parameters related to radio access. Meanwhile, such information can be transferred from the source MME to the target AMF by requesting the target AMF to the source MME. In addition, in an embodiment, the source MME may perform context transfer to the target AMF.
이처럼 target AMF (111) 은 source MME 로부터 UE 에 대한 full radio capability 를 전달 받은 상태이다. As such, the target AMF 111 has received full radio capability for the UE from the source MME.
1011 과정에서 UE 는 target AMF(111) 로 registration request 를 전송한다. 이때 UE 는 UE radio information 예를 들면 UE radio capability identity 를 제공할 수 있음에도 불구하고, 이러한 정보를 제공하지 않는다. 이는 UE 가 UE radio capability identity 를 제공할 수 없는 MME 가 있는 network 에서 UE radio capability identity 를 제공할 수 있는 AMF(111) 로 이동했음에도 이에 대한 정보가 없기 때문이다. In step 1011, the UE transmits a registration request to the target AMF 111. In this case, the UE does not provide such information even though it may provide UE radio information, for example, UE radio capability identity. This is because there is no information about this even though the UE moves to the AMF 111 that can provide the UE radio capability identity in the network with the MME that cannot provide the UE radio capability identity.
또는 UE 가 제공한 radio access capability identity 와 network 가 가지고 있는 radio access capability identity 의 정보가 일치하는지도 알 수 가 없었다. Or, it was not possible to know whether the radio access capability identity provided by the UE and the radio access capability identity information of the network match.
1021과정에서 AMF 는 UE 로 Identity request 메시지를 PEI 를 identity 로 하여 전송한다.In step 1021, the AMF transmits an Identity request message to the UE using PEI as the identity.
1023 과정에서 UE 는 AMF 로 identity response 메시지를 전송하면서 radio access capability operation 에 필요한 Tracking area code (TAC) 정보를 AMF 로 알려준다. 혹은 UE 는 AMF로 identity response 메시지를 전송하면서 UE radio info 혹은 UE radio capability identity 등의 정보를 전송할 수 있다. In step 1023, the UE transmits an identity response message to the AMF and informs the AMF of the tracking area code (TAC) information required for radio access capability operation. Alternatively, the UE may transmit information such as UE radio info or UE radio capability identity while transmitting an identity response message to the AMF.
1031 과정에서 AMF(111) 는 UE(101)로 registration Accept 메시지를 전송한다. In step 1031, the AMF 111 transmits a registration Accept message to the UE 101.
1041 과정에서 UE 는 AMF 로 registration complete 메시지를 전송한다. In step 1041, the UE transmits a registration complete message to the AMF.
1051 과정에서 AMF 는 UE로 configuration update command 메시지를 전송한다. 이 때 AMF 는 UE 에 대해 PLMN assigned UE radio capability identity 를 할당할 수 있다. In step 1051, the AMF transmits a configuration update command message to the UE. In this case, the AMF may allocate a PLMN assigned UE radio capability identity to the UE.
1053 과정에서 UE 는 AMF 로 configuration update complete 를 전송한다In step 1053, the UE transmits a configuration update complete to the AMF.
여러가지 방법으로 실시예가 가능하다. Examples are possible in several ways.
실시예 1) UE 가 target AMF (111) 로 1003 의 registration request 를 보낼 때 UE radio capability identity 를 함께 제공하는 방법이다. Example 1) This is a method of providing UE radio capability identity together when the UE sends a registration request of 1003 to the target AMF 111.
이러한 방안을 위한 절차는 다음과 같다.The procedure for this plan is as follows.
방안 1-1) 이 방법은 UE 가 AMF 로 registration request 를 보낼 때 UE 가 가지고 있는 UE radio capability identity 를 제공할 때 UE 의 manufacturer 에서 부여 받은 manufacturer identity 를 UE radio capability identity 로 제공하는 방안이다. 또한 방안 1-2) 또 다른 방안으로 UE 가 AMF 로 registration request 를 보낼 때 UE 가 가지고 있는 UE radio capability identity 를 제공할 때 이 전에 UE 가 해당 network, PLMN 에 접속한 적이 있어서 network 으로부터 부여 받은 PLMN assigned UE radio capability identity 가 있는 경우 이를 AMF에 제공하는 방안이다. Method 1-1) This method is a method of providing the UE radio capability identity given by the manufacturer of the UE as the UE radio capability identity when the UE sends a registration request to the AMF and provides the UE radio capability identity that the UE has. In addition, Method 1-2) As another method, when the UE sends a registration request to the AMF, when the UE provides the UE radio capability identity that the UE has, the PLMN assigned from the network is assigned because the UE has previously accessed the corresponding network and PLMN. If there is a UE radio capability identity, this is a method of providing it to the AMF.
실시예 2) 또는 AMF 가 UE 에게 UE radio capability identity 를 제공하도록 요청하여, UE 가 AMF 에게 UE radio capability identity 를 제공하는 방안이다. Embodiment 2) Or, by requesting the AMF to provide the UE radio capability identity to the UE, the UE provides the UE radio capability identity to the AMF.
이러한 방안을 위한 절차는 다음과 같다. The procedure for this plan is as follows.
1003 과정에서 AMF 가 context transfer 로 받은 full UE radio capability 와 1011 과정에서 UE 가 AMF 에 제공한 UE radio capability identity 가 없거나, UE radio capability 관련 정보가 AMF 에서 검증 (verification) 하였을 때 일치하지 않는 경우 이다. In step 1003, the full UE radio capability received by the AMF through context transfer and the UE radio capability identity provided by the UE to the AMF in step 1011 do not exist, or the UE radio capability-related information does not match when verified by AMF.
방안 2-1) AMF 가 UE 로 UE radio info 혹은 UE radio capability identity 를 제공하도록 요청하고 이에 대한 응답을 받는 방안이다.Method 2-1) This is a method by which the AMF requests the UE to provide UE radio info or UE radio capability identity and receives a response thereto.
이를 위하여서는 AMF 는 1031 과정을 registration accept 메시지를 수행하면서 UE radio info 즉 UE radio capability identity 를 요청하는 indication 을 보낼 수 있다. To this end, the AMF may transmit UE radio info, that is, an indication requesting UE radio capability identity, while performing a registration accept message in step 1031.
혹은 AMF 는 1031 과정에서 registration accept 메시지를 수행하면서 UE radio info 즉 UE radio capability identity 가 일치 하지 않음을 알려주고, 일 예로 error cause 등을 써서 UE radio capability identity 가 일치 하지 않는 error cause 를 알려준다. Alternatively, the AMF informs that the UE radio info, that is, the UE radio capability identity does not match, while performing the registration accept message in step 1031, and informs the error cause of the UE radio capability identity does not match by writing an error cause, for example.
또한 AMF 는 PLMN assigned UE radio info 즉 PLMN assigned UE radio capability identity 를 설정하여 전송한다.In addition, AMF configures and transmits PLMN assigned UE radio info, that is, PLMN assigned UE radio capability identity.
방안 2-2) AMF 가 UE 로 UE radio info 혹은 UE radio capability identity 를 제공하도록 요청하고 이에 대한 응답을 받는 방안이다.Method 2-2) This is a method by which the AMF requests the UE to provide UE radio info or UE radio capability identity and receives a response thereto.
AMF 는 1031 과정을 registration accept 메시지를 수행하면서 UE radio info 즉 UE radio capability identity 를 요청하는 indication 을 보낼 수 있다. The AMF may transmit UE radio info, that is, an indication requesting UE radio capability identity, while performing a registration accept message in process 1031.
혹은 AMF 는 1031 과정에서 registration accept 메시지를 수행하면서 UE radio info 즉 UE radio capability identity 가 일치 하지 않음 혹은 UE radio info 즉 UE radio capability identity 가 필요하다는 것을 indication 을 통해 알려준다. Alternatively, AMF informs through an indication that UE radio info, that is, UE radio capability identity does not match, or that UE radio info, that is, UE radio capability identity is required, while performing a registration accept message in step 1031.
그리고, 이를 받으면, And, upon receiving it,
또한 AMF 는 PLMN assigned UE radio info 즉 PLMN assigned UE radio capability identity 를 설정하여 전송한다.In addition, AMF configures and transmits PLMN assigned UE radio info, that is, PLMN assigned UE radio capability identity.
방안 2-3) AMF 가 UE 로 UE radio info 혹은 UE radio capability identity 를 제공하도록 요청하고 이에 대한 응답을 받는 방안이다.Method 2-3) This is a method by which the AMF requests the UE to provide UE radio info or UE radio capability identity and receives a response thereto.
이를 위하여서는 AMF 는 1031 과정의 registration accept 메시지 이전에 다음과 같은 동작을 수행하여야 한다. To this end, the AMF must perform the following actions before the registration accept message in step 1031.
1021 AMF 는 UE 로 Identity request 메시지를 PEI 를 identity 로 하여 전송한다. 1021 AMF transmits an Identity request message to the UE using PEI as identity.
1023 에서 UE 는 AMF 로 identity response 메시지를 전송하면서 radio access capability operation 에 필요한 Tracking area code (TAC) 정보를 AMF 로 알려준다. 혹은 UE 는 AMF로 identity response 메시지를 전송하면서 UE radio info 혹은 UE radio capability identity 등의 정보를 전송할 수 있다. At 1023, the UE transmits an identity response message to the AMF and informs the AMF of the tracking area code (TAC) information required for radio access capability operation. Alternatively, the UE may transmit information such as UE radio info or UE radio capability identity while transmitting an identity response message to the AMF.
실시예 3 ) 또는 AMF 가 UE 로 radio capability identity 를 제공하는 방안이다. Embodiment 3) Or a method for AMF to provide radio capability identity to the UE.
이러한 방안을 위한 절차는 다음과 같다. The procedure for this plan is as follows.
UE 는 1011 과정에서 AMF 로 registration request 를 보낸다. 이때 UE 는 UE radio capability identity 를 함께 전송한다. 이는 UE 가 network 으로부터 전송 받은 PLMN assigned radio capability identity 일 수도 있고, manufacturer 에게 부여 받은 manufacturer UE radio capability identity 일 수도 있다. 혹은 UE 는 해당 기능을 support 하지 않는 MME로부터 이동해 왔으므로 UE radio capability identity 와 같은 radio information 을 제공할 수 있는 기능이 있음에도 UE radio capability identity 를 AMF (111) 로 제공하지 않을 수도 있다. The UE sends a registration request to the AMF in process 1011. At this time, the UE transmits the UE radio capability identity together. This may be a PLMN assigned radio capability identity transmitted from a network by the UE, or may be a manufacturer UE radio capability identity granted to a manufacturer. Alternatively, since the UE has moved from the MME that does not support the corresponding function, the UE radio capability identity may not be provided to the AMF 111 even though there is a function capable of providing radio information such as UE radio capability identity.
방안 3-1) UE 로부터 받은 UE radio capability identity 가 있고, full UE radio capability 의 정보와 같은 경우에 대한 것이다. Method 3-1) This is for a case where there is a UE radio capability identity received from the UE, and the information of full UE radio capability is the same.
방안 3-1-1_) Option 3-1-1_)
1031 과정에서, AMF(111) 는 이전의 1003 과정 즉 AMF(111) 가 context transfer 를 통해서 MME 로부터 UE 에 대한 full UE radio capability information 을 받은 경우, 1011과정에서 UE 로부터 registration request 를 통해 전달 받은 UE radio capability identity 가 있다면In step 1031, when the AMF 111 receives full UE radio capability information for the UE from the MME through the previous 1003 process, that is, the context transfer, the UE radio received through the registration request from the UE in the 1011 process. If you have capability identity
UE radio capability identity 에 대한 정보, 해당 UE 에 대한 UE radio capability 관련 정보를 MME 에서 context transfer 를 통해 전달받은 full radio capability information 과 비교하여 같은 정보라면 UE 로부터 받은 UE radio capability identity 를 store 하여 이후 UE radio capability identity 를 활용할 수 있다. If the information about the UE radio capability identity and the UE radio capability related information for the UE are compared with the full radio capability information received through context transfer from the MME, if the same information is the same, the UE radio capability identity received from the UE is stored, and then the UE radio capability Identity can be used.
또는 일 실시예로Or as an example
방안 3-1-2) Option 3-1-2)
1031 과정에서, AMF(111) 는 이전의 1003 과정 즉 AMF(111) 가 context transfer 를 통해서 MME 로부터 UE 에 대한 full UE radio capability information 을 받은경우, 1011과정에서 UE 로부터 registration request 를 통해 전달 받은 UE radio capability identity 가 있다면In step 1031, when the AMF 111 receives full UE radio capability information for the UE from the MME through the previous 1003 process, that is, the context transfer, the UE radio received through the registration request from the UE in the 1011 process. If you have capability identity
UE radio capability identity 에 대한 정보, 해당 UE 에 대한 UE radio capability 관련 정보를 MME에서 context transfer 를 통해 전달받은 full radio capability information 과 비교하여 같은 정보라면 UE 로부터 받은 UE radio capability identity 를 store 하여 이후 UE radio capability identity 를 활용하고, AMF 가 UE 에게 assign 하는 PLMN assigned UE radio capability identity 를 전달 할 수 있다. If the information on the UE radio capability identity and the UE radio capability related information for the UE are compared with the full radio capability information received through context transfer from the MME, if the same information is the same, the UE radio capability identity received from the UE is stored, and then the UE radio capability Identity is utilized, and the PLMN assigned UE radio capability identity assigned by the AMF to the UE can be delivered.
방안 3-2) UE radio capability identity 가 없는 경우, 하지만 full radio capability information 과 비교하여 같은 정보인 경우에 대한 것이다. Method 3-2) This is for the case where there is no UE radio capability identity, but the same information compared to the full radio capability information.
한편 1031 과정에서, Meanwhile, in process 1031,
AMF(111) 는 이전의 1003 과정 즉 AMF(111) 가 context transfer 를 통해서 MME 로부터 UE 에 대한 full UE radio capability information 을 받은 것이 있고, 이전에 해당 UE 가 AMF(111) 에 접속한 적이 있어 AMF (111)이 UE 에 대한 정보(예를 들어 UE 에 대한 5G-GUTI 등의 식별자) 혹은 UE radio capability identity 에 대한 정보가 있으며, The AMF 111 has received full UE radio capability information for the UE from the MME through the previous 1003 process, that is, the AMF 111 has context transfer, and the corresponding UE has previously accessed the AMF 111, so AMF ( 111) There is information about this UE (for example, an identifier such as 5G-GUTI for the UE) or information about the UE radio capability identity,
1011과정에서 UE 로부터 registration request 를 통해 전달 받은 UE radio capability identity 가 없고, There is no UE radio capability identity transmitted through the registration request from the UE in step 1011,
MME 에서 context transfer 를 통해 전달받은 full radio capability information 과 UE 의 radio capability 관련 정보와 비교하여 같은 정보라면 If the information is the same as compared with the full radio capability information received through context transfer from the MME and the information related to the radio capability of the UE
방안 3-2-1) 1031 과정에서 AMF 는 UE 에 AMF 가 저장하고 있던 UE radio capability identity 정보를 알려준다.Option 3-2-1) In step 1031, the AMF informs the UE of the UE radio capability identity information stored by the AMF.
혹은 or
방안 3-2-2) 1031 과정에서 AMF 는 UE 에 AMF 가 새로이 할당한 PLMN assigned UE radio capability identy 를 할당하여 전송하여 UE 와 network 이 가진 정보의 동기를 맞출 수 있다. Option 3-2-2) In step 1031, the AMF allocates and transmits the PLMN assigned UE radio capability identity newly allocated by the AMF to the UE, so that the information of the UE and the network can be synchronized.
방안 3-2) UE radio capability identity 가 없거나, 혹은 UE radio capability identity 가 있더라도 full radio capability information 과 비교하여 다른 정보인 경우 Method 3-2) In case of different information compared to full radio capability information even if there is no UE radio capability identity or UE radio capability identity
방안 3-2-1) MME에서 context transfer 를 통해 전달받은 full radio capability information 과 UE 의 radio capability 관련 정보와 비교하여 다른 정보라면 Option 3-2-1) If the information is different from the full radio capability information received through context transfer from the MME and the information related to the radio capability of the UE,
1031 과정에서 AMF 는 UE 에 PLMN assigned UE radio capability identity 를 생성하여 알려준다. 그리고 일 실시예에 따라서는 AMF 는 UE 로부터 registration complete 메시지를 response 로 받으면 PLMN assigned UE radio info 즉 PLMN assigned UE radio capability identity information 을 저장한다. In step 1031, the AMF creates and informs the UE radio capability identity assigned to the PLMN. And according to an embodiment, when the AMF receives a registration complete message from the UE as a response, it stores PLMN assigned UE radio info, that is, PLMN assigned UE radio capability identity information.
방안 3-2-2) 1031 과정에서 UE 가 AMF 에 접속하여 AMF 가 UE 에 대한 정보를 가지고 있는 경우지만, AMF 가 source MME 로부터 받은 full UE radio capability 에 대응하는 UE 로부터 받은 UE radio info 가 없다면, 예를 들면 AMF 가 source MME 로부터 받은 full UE radio capability 에 대응하는 UE radio capability identity 정보나 UE radio info가 없다면 Method 3-2-2) If the UE accesses the AMF in step 1031 and the AMF has information about the UE, but the AMF does not have the UE radio info received from the UE corresponding to the full UE radio capability received from the source MME, For example, if the AMF does not have UE radio capability identity information or UE radio info corresponding to the full UE radio capability received from the source MME
AMF 는 UE 에 해당하는 PLMN assigned UE radio capability identity 를 1031 과정에서 전송할 수 있다. 방안 4) configuration update command 를 활용하는 방안이다. The AMF may transmit a PLMN assigned UE radio capability identity corresponding to the UE in step 1031. Method 4) This is a method of using the configuration update command.
AMF 에서 UE 로 configuration update command 를 보내면서, PLMN assigned UE radio capability identity, PLMN assigned UE radio capability identity deletion indication 를 설정해서 보내는 방안이다. This is a method for sending a configuration update command from the AMF to the UE by setting and sending a PLMN assigned UE radio capability identity and a PLMN assigned UE radio capability identity deletion indication.
이를 받으면 UE 는 해당 PLMN 을 위한 UE radio capability identity, 이전에 assign 된 PLMM assigned UE radio capability identity를 삭제하고 UE는 AMF 로 configuration update complete 메시지를 보낸다.Upon receiving this, the UE deletes the UE radio capability identity for the corresponding PLMN and the previously assigned PLMM assigned UE radio capability identity, and the UE sends a configuration update complete message to the AMF.
즉 다음과 같이 동작한다. That is, it works as follows.
한편 1031 과정에서, Meanwhile, in process 1031,
AMF(111) 는 이전의 1003 과정 즉 AMF(111) 가 context transfer 를 통해서 MME 로부터 UE 에 대한 full UE radio capability information 을 받은 것이 있고, 이전에 해당 UE 가 AMF(111) 에 접속한 적이 있어 AMF (111)이 UE 에 대한 정보(예를 들어 UE 에 대한 5G-GUTI 등의 식별자) 혹은 UE radio capability identity 에 대한 정보가 있으며, The AMF 111 has received full UE radio capability information for the UE from the MME through the previous 1003 process, that is, the AMF 111 has context transfer, and the corresponding UE has previously accessed the AMF 111, so AMF ( 111) There is information about this UE (for example, an identifier such as 5G-GUTI for the UE) or information about the UE radio capability identity,
1011과정에서 UE 로부터 registration request 를 통해 전달 받은 UE radio capability identity 가 없고, There is no UE radio capability identity transmitted through the registration request from the UE in step 1011,
MME 에서 context transfer 를 통해 전달받은 full radio capability information 과 UE 의 radio capability 관련 정보와 비교하여 같은 정보라면If the information is the same as compared with the full radio capability information received through context transfer from the MME and the information related to the radio capability of the UE
1031 과정에서와 같이 AMF(111) 는 UE(101-1)로 registration Accept 메시지를 전송한다. As in step 1031, the AMF 111 transmits a registration Accept message to the UE 101-1.
1041 에서 처럼 UE 는 AMF 로 registration complete 메시지를 전송한다. As in 1041, the UE sends a registration complete message to the AMF.
1051 에서 처럼 AMF 는 UE로 configuration update command 메시지를 전송한다. 이 때 AMF 는 UE 에 대해 PLMN assigned UE radio capability identity 를 할당할 수 있다. As in 1051, the AMF transmits a configuration update command message to the UE. In this case, the AMF may allocate a PLMN assigned UE radio capability identity to the UE.
1053 에서 처럼 UE 는 AMF 로 configuration update complete 를 전송한다As in 1053, the UE sends configuration update complete to AMF.
일 실시예에 따른, 무선 통신 시스템에서 UE (user equipment)가 단말이 핸드오버 대상이 되는 타겟 네트워크 엔티티에 UE의 캐퍼빌리티 정보를 포함한 트래킹 영역 업데이트 요청 메시지를 전송하고, 타겟 네트워크 엔티티로부터 상기 단말의 캐퍼빌리티 식별자에 대한 요청 메시지를 수신하며, 타겟 네트워크 엔티티에 상기 단말의 캐퍼빌리티 식별자에 관한 정보를 전송하고, 타겟 네트워크 엔티티에서, 단말의 캐퍼빌리티 식별자를 기초로 UE에 대한 무선 접속 (radio access) 정보가 업데이트 됨에 따라, 타겟 네트워크 엔티티로부터 트래킹 영역 업데이트 완료 메시지를 수신하는, 통신을 수행하는 방법이 개시된다.According to an embodiment, in a wireless communication system, a user equipment (UE) transmits a tracking area update request message including capability information of the UE to a target network entity to which the UE is a handover target, and Receiving a request message for a capability identifier, transmitting information on the capability identifier of the terminal to a target network entity, and radio access to the UE based on the capability identifier of the terminal at the target network entity As information is updated, a method of performing communication is disclosed in which a tracking area update completion message is received from a target network entity.
도 11은 본 개시의 일 실시예에 따른 단말의 동작 방법을 설명하기 위한 순서도이다.11 is a flowchart illustrating a method of operating a terminal according to an embodiment of the present disclosure.
단계 1102에서, 단말은 단말 무선 능력 식별자와 연관된 단말 무선 능력 정보를 포함하는 TAU(tracking area update) 요청 메시지를 코어 엔티티에게 전송할 수 있다. 코어 엔티티는 MME를 포함할 수 있으며, MME는 핸드오버 대상이 되는 엔티티를 포함할 수 있다. 예를 들어, 단말이 5G 네트워크에서 4G 네트워크로 핸드오버하는 경우에, 단말은 MME에게 단말 무선 능력 정보를 포함하는 TAU 요청 메시지를 전송할 수 있다. In step 1102, the terminal may transmit a tracking area update (TAU) request message including terminal radio capability information associated with the terminal radio capability identifier to the core entity. The core entity may include an MME, and the MME may include an entity subject to handover. For example, when a terminal handovers from a 5G network to a 4G network, the terminal may transmit a TAU request message including terminal radio capability information to the MME.
구체적으로, 단말 무선 능력 정보는 단말이 단말 무선 능력 식별자를 제공할 수 있음을 나타내는 비트 정보를 포함할 수 있다. 예를 들어, 상기 비트 정보가 '1'의 값을 가질 경우에, 상기 단말 무선 능력 정보는 단말이 무선 능력 식별자를 제공할 수 있음을 나타낼 수 있다. 비트 정보가 '0'의 값을 가질 경우에 단말 무선 능력 정보는 단말이 무선 능력 식별자 정보를 제공할 수 없음을 나타낼 수 있다. 단말은 4G 네트워크로 핸드오버하는 상황에서 MME에게 단말이 무선 능력 식별자를 제공할 수 있음을 나타내는 정보를 포함하는 TAU 요청 메시지를 전송할 수 있다.Specifically, the terminal radio capability information may include bit information indicating that the terminal can provide the terminal radio capability identifier. For example, when the bit information has a value of '1', the terminal radio capability information may indicate that the terminal can provide a radio capability identifier. When the bit information has a value of '0', the terminal radio capability information may indicate that the terminal cannot provide radio capability identifier information. The terminal may transmit a TAU request message including information indicating that the terminal can provide a radio capability identifier to the MME in a handover situation to the 4G network.
단계 1104에서, 단말은 단말 무선 능력 정보에 기초하여 단말 무선 능력 식별자 정보의 요청을 위한 보안 모드 명령 메시지를 코어 엔티티로부터 수신할 수 있다. 코어 엔티티는 TAU 요청 메시지에 포함된 단말 무선 능력 정보에 기초하여 단말에게 단말 무선 능력 식별자 정보를 요청할 수 있다. 구체적으로, 코어 엔티티는 단말 무선 능력 정보에 포함된 비트 정보에 기초하여 단말 무선 능력 정보가 단말이 무선 능력 식별자 정보를 제공할 수 있음을 나타내는 경우에 단말에게 단말 무선 능력 식별자 정보를 요청할 수 있다.In step 1104, the terminal may receive a security mode command message for requesting terminal radio capability identifier information from the core entity based on the terminal radio capability information. The core entity may request terminal radio capability identifier information from the terminal based on the terminal radio capability information included in the TAU request message. Specifically, the core entity may request the terminal radio capability identifier information from the terminal when the terminal radio capability information indicates that the terminal can provide the radio capability identifier information based on the bit information included in the terminal radio capability information.
또한, 단말은 코어 엔티티에서 가용한 단말 무선 능력 식별자에 대한 정보에 기초하여 보안 모드 메시지를 코어 엔티티로부터 수신할 수 있다. 구체적으로, 코어 엔티티는 코어 엔티티에서 가용한 무선 능력 식별자에 대한 정보가 코어 엔티티에서 가용한 무선 능력 식별자가 존재하지 않는 것으로 나타낼 경우에, 단말에게 단말 무선 능력 식별자 정보를 요청할 수 있다.In addition, the terminal may receive a security mode message from the core entity based on information on the terminal radio capability identifier available in the core entity. Specifically, when the information on the radio capability identifier available in the core entity indicates that there is no radio capability identifier available in the core entity, the core entity may request terminal radio capability identifier information from the terminal.
일 실시예에 따르면, 단말이 무선 능력 식별자 정보를 제공할 수 있으며, 코어 엔티티에서 가용한 무선 능력 식별자가 존재하지 않을 경우에, 코어 엔티티로부터 보안 모드 메시지를 수신할 수 있다.According to an embodiment, the terminal may provide radio capability identifier information, and when there is no radio capability identifier available in the core entity, a security mode message may be received from the core entity.
단계 1106에서, 단말은 보안 모드 명령 메시지에 응답하여 단말 무선 능력 식별자 정보를 포함하는 보안 모드 완료 메시지를 코어 엔티티에게 전송할 수 있다. 이후 단말은 코어 엔티티로부터 TAU 완료 메시지를 수신할 수 있다.In step 1106, the terminal may transmit a security mode completion message including terminal radio capability identifier information to the core entity in response to the security mode command message. Thereafter, the terminal may receive a TAU completion message from the core entity.
도 12는 본 개시의 일 실시예에 따른 코어 엔티티의 동작 방법을 설명하기 위한 도면이다.12 is a diagram illustrating a method of operating a core entity according to an embodiment of the present disclosure.
단계 1202에서, 코어 엔티티는 단말 무선 능력 식별자와 연관된 단말 무선 능력 정보를 포함하는 TAU(tracking area update) 요청 메시지를 단말로부터 수신할 수 있다. 코어 엔티티는 MME를 포함할 수 있으며, MME는 핸드오버 대상이 되는 엔티티를 포함할 수 있다. 예를 들어, 단말이 5G 네트워크에서 4G 네트워크로 핸드오버하는 경우에, MME는 단말 무선 능력 정보를 포함하는 TAU 요청 메시지를 단말로부터 수신할 수 있다. In step 1202, the core entity may receive from the terminal a tracking area update (TAU) request message including terminal radio capability information associated with the terminal radio capability identifier. The core entity may include an MME, and the MME may include an entity subject to handover. For example, when a terminal handovers from a 5G network to a 4G network, the MME may receive a TAU request message including terminal radio capability information from the terminal.
구체적으로, 단말 무선 능력 정보는 단말이 단말 무선 능력 식별자를 제공할 수 있음을 나타내는 비트 정보를 포함할 수 있다. 예를 들어, 상기 비트 정보가 '1'의 값을 가질 경우에, 상기 단말 무선 능력 정보는 단말이 무선 능력 식별자를 제공할 수 있음을 나타낼 수 있다. 비트 정보가 '0'의 값을 가질 경우에 단말 무선 능력 정보는 단말이 무선 능력 식별자 정보를 제공할 수 없음을 나타낼 수 있다. 단말이 4G 네트워크로 핸드오버하는 상황에서 MME는 단말이 무선 능력 식별자를 제공할 수 있음을 나타내는 정보를 포함하는 TAU 요청 메시지를 단말로부터 수신할 수 있다.Specifically, the terminal radio capability information may include bit information indicating that the terminal can provide the terminal radio capability identifier. For example, when the bit information has a value of '1', the terminal radio capability information may indicate that the terminal can provide a radio capability identifier. When the bit information has a value of '0', the terminal radio capability information may indicate that the terminal cannot provide radio capability identifier information. In a situation in which the terminal is handed over to the 4G network, the MME may receive a TAU request message from the terminal including information indicating that the terminal can provide the radio capability identifier.
단계 1204에서, 코어 엔티티는 단말 무선 능력 정보에 기초하여 단말 무선 능력 식별자 정보의 요청을 위한 보안 모드 명령 메시지를 단말에게 전송할 수 있다. 코어 엔티티는 TAU 요청 메시지에 포함된 단말 무선 능력 정보에 기초하여 단말에게 단말 무선 능력 식별자 정보를 요청할 수 있다. 구체적으로, 코어 엔티티는 단말 무선 능력 정보에 포함된 비트 정보에 기초하여 단말 무선 능력 정보가 단말이 무선 능력 식별자 정보를 제공할 수 있음을 나타내는 경우에 단말에게 단말 무선 능력 식별자 정보를 요청할 수 있다.In step 1204, the core entity may transmit a security mode command message for requesting terminal radio capability identifier information to the terminal based on the terminal radio capability information. The core entity may request terminal radio capability identifier information from the terminal based on the terminal radio capability information included in the TAU request message. Specifically, the core entity may request the terminal radio capability identifier information from the terminal when the terminal radio capability information indicates that the terminal can provide the radio capability identifier information based on the bit information included in the terminal radio capability information.
또한, 코어 엔티티는 코어 엔티티에서 가용한 단말 무선 능력 식별자에 대한 정보에 기초하여 보안 모드 메시지를 단말에게 전송할 수 있다. 구체적으로, 코어 엔티티는 코어 엔티티에서 가용한 무선 능력 식별자에 대한 정보가 코어 엔티티에서 가용한 무선 능력 식별자가 존재하지 않는 것으로 나타낼 경우에, 단말에게 단말 무선 능력 식별자 정보를 요청할 수 있다.In addition, the core entity may transmit a security mode message to the terminal based on information on the terminal radio capability identifier available in the core entity. Specifically, when the information on the radio capability identifier available in the core entity indicates that there is no radio capability identifier available in the core entity, the core entity may request terminal radio capability identifier information from the terminal.
일 실시예에 따르면, 코어 엔티티는 단말이 무선 능력 식별자 정보를 제공할 수 있으며, 코어 엔티티에서 가용한 무선 능력 식별자가 존재하지 않을 경우에, 단말에게 보안 모드 메시지를 전송할 수 있다.According to an embodiment, the core entity may provide radio capability identifier information from the terminal, and may transmit a security mode message to the terminal when there is no radio capability identifier available in the core entity.
단계 1206에서, 코어 엔티티는 단말 무선 능력 식별자 정보를 포함하는 보안 모드 완료 메시지를 단말로부터 수신할 수 있다. 이후 코어 엔티티는 단말에게 TAU 완료 메시지를 전송할 수 있다.In step 1206, the core entity may receive a security mode completion message including the terminal radio capability identifier information from the terminal. Thereafter, the core entity may transmit a TAU completion message to the terminal.
본 개시의 일 실시예에 따르면, 무선 통신 시스템에서 단말에 있어서, 상기 단말은 트랜시버; 및 상기 트랜시버를 통해, 단말 무선 능력 식별자(UE radio capability ID)와 연관된 단말 무선 능력 정보 포함하는 TAU(tracking area update) 요청 메시지를 코어 엔티티(entity)에게 전송하고, 상기 트랜시버를 통해, 상기 단말 무선 능력 정보에 기초하여 보안 모드 명령 메시지(security mode command message)를 상기 코어 엔티티로부터 수신하며, 상기 트랜시버를 통해, 단말 무선 능력 식별자 정보를 포함하는 보안 모드 완료 메시지를 상기 코어 엔티티에게 전송하는 적어도 하나의 프로세서를 포함할 수 있다.According to an embodiment of the present disclosure, in a terminal in a wireless communication system, the terminal includes a transceiver; And transmitting a TAU (tracking area update) request message including terminal radio capability information associated with a UE radio capability ID to a core entity through the transceiver, and through the transceiver, the UE radio At least one of receiving a security mode command message from the core entity based on capability information, and transmitting a security mode completion message including terminal radio capability identifier information to the core entity through the transceiver. It may include a processor.
일 실시예에 따르면, 상기 적어도 하나의 프로세서는 상기 트랜시버를 통해, 상기 코어 엔티티에서 가용한 단말 무선 능력 식별자에 대한 정보에 기초하여 상기 보안 모드 명령 메시지를 상기 코어 엔티티로부터 수신할 수 있다.According to an embodiment, the at least one processor may receive the security mode command message from the core entity based on information on a terminal radio capability identifier available in the core entity through the transceiver.
일 실시예에 따르면, 상기 단말 무선 능력 정보는 상기 단말이 상기 단말 무선 능력 식별자를 지원하는 것을 나타내는 비트 정보를 포함할 수 있다.According to an embodiment, the terminal radio capability information may include bit information indicating that the terminal supports the terminal radio capability identifier.
일 실시예에 따르면, 상기 코어 앤티티에서 가용한 상기 단말 무선 능력 식별자에 대한 상기 정보는 상기 코어 엔티티에서 가용한 상기 단말 무선 능력 식별자가 존재하지 않는 것을 나타낼 수 있다.According to an embodiment, the information on the terminal radio capability identifier available in the core entity may indicate that the terminal radio capability identifier available in the core entity does not exist.
일 실시예에 따르면, 상기 코어 앤티티는 MME(mobility management entity)를 포함하되, 상기 MME는 핸드 오버 대상이 되는 엔티티일 수 있다.According to an embodiment, the core entity includes a mobility management entity (MME), and the MME may be an entity subject to handover.
본 개시의 일 실시예에 따르면, 무선 통신 시스템에서 코어 엔티티에 있어서, 상기 코어 엔티티는 트랜시버; 및 상기 트랜시버를 통해, 단말 무선 능력 식별자(UE radio capability ID)와 연관된 단말 무선 능력 정보 포함하는 TAU(tracking area update) 요청 메시지를 단말로부터 수신하고, 상기 트랜시버를 통해, 상기 단말 무선 능력 정보에 기초하여 보안 모드 명령 메시지(security mode command message)를 상기 단말에게 전송하며, 상기 트랜시버를 통해, 단말 무선 능력 식별자 정보를 포함하는 보안 모드 완료 메시지를 상기 단말로부터 수신하는 적어도 하나의 프로세서를 포함할 수 있다.상술한 본 개시의 구체적인 실시 예들에서, 발명에 포함되는 구성 요소는 제시된 구체적인 실시 예에 따라 단수 또는 복수로 표현되었다. 그러나, 단수 또는 복수의 표현은 설명의 편의를 위해 제시한 상황에 적합하게 선택된 것으로서, 본 개시가 단수 또는 복수의 구성 요소에 제한되는 것은 아니며, 복수로 표현된 구성 요소라 하더라도 단수로 구성되거나, 단수로 표현된 구성 요소라 하더라도 복수로 구성될 수 있다.According to an embodiment of the present disclosure, in a core entity in a wireless communication system, the core entity includes a transceiver; And receiving a TAU (tracking area update) request message including terminal radio capability information associated with a UE radio capability ID from the terminal through the transceiver, and based on the terminal radio capability information through the transceiver. Thus, it may include at least one processor that transmits a security mode command message to the terminal, and receives a security mode completion message including terminal radio capability identifier information from the terminal through the transceiver. In the specific embodiments of the present disclosure described above, constituent elements included in the invention are expressed in the singular or plural according to the specific embodiments presented. However, the singular or plural expression is selected appropriately for the situation presented for convenience of description, and the present disclosure is not limited to the singular or plural constituent elements, and even constituent elements expressed in plural are composed of the singular or in the singular. Even the expressed constituent elements may be composed of pluralities.
한편 본 개시의 상세한 설명에서는 구체적인 실시 예에 관해 설명하였으나, 본 개시의 범위에서 벗어나지 않는 한도 내에서 여러 가지 변형이 가능함은 물론이다. 그러므로 본 개시의 범위는 설명된 실시 예에 국한되어 정해져서는 아니 되며 후술하는 특허청구의 범위뿐만 아니라 이 특허청구의 범위와 균등한 것들에 의해 정해져야 한다. Meanwhile, although specific embodiments have been described in the detailed description of the present disclosure, various modifications may be made without departing from the scope of the present disclosure. Therefore, the scope of the present disclosure is limited to the described embodiments and should not be defined, and should be determined by the scope of the claims and equivalents as well as the scope of the claims to be described later.

Claims (15)

  1. 무선 통신 시스템에서 단말의 방법에 있어서, 상기 방법은In the method of the terminal in a wireless communication system, the method
    단말 무선 능력 식별자(UE radio capability ID)와 연관된 단말 무선 능력 정보 포함하는 TAU(tracking area update) 요청 메시지를 코어 엔티티(entity)에게 전송하는 단계;Transmitting a tracking area update (TAU) request message including terminal radio capability information associated with a UE radio capability ID to a core entity;
    상기 단말 무선 능력 정보에 기초하여 단말 무선 능력 식별자 정보의 요청을 위한 보안 모드 명령 메시지(security mode command message)를 상기 코어 엔티티로부터 수신하는 단계; 및Receiving a security mode command message for requesting terminal radio capability identifier information from the core entity based on the terminal radio capability information; And
    상기 단말 무선 능력 식별자 정보를 포함하는 보안 모드 완료 메시지를 상기 코어 엔티티에게 전송하는 단계Transmitting a security mode completion message including the terminal radio capability identifier information to the core entity
    를 포함하는 방법.How to include.
  2. 제1 항에 있어서, 상기 보안 모드 명령 메시지를 수신하는 단계는The method of claim 1, wherein receiving the security mode command message
    상기 코어 엔티티에서 가용한 단말 무선 능력 식별자에 대한 정보에 기초하여 상기 보안 모드 명령 메시지를 상기 코어 엔티티로부터 수신하는 단계Receiving the security mode command message from the core entity based on information on the terminal radio capability identifier available in the core entity
    를 포함하는 방법.How to include.
  3. 제1 항에 있어서, 상기 단말 무선 능력 정보는The method of claim 1, wherein the terminal radio capability information
    상기 단말이 상기 단말 무선 능력 식별자를 지원하는 것을 나타내는 비트 정보Bit information indicating that the terminal supports the terminal radio capability identifier
    를 포함하는 방법.How to include.
  4. 제2 항에 있어서, 상기 코어 앤티티에서 가용한 상기 단말 무선 능력 식별자에 대한 상기 정보는The method of claim 2, wherein the information on the terminal radio capability identifier available in the core entity is
    상기 코어 엔티티에서 가용한 상기 단말 무선 능력 식별자가 존재하지 않는 것을 나타내는 Indicating that the terminal radio capability identifier available in the core entity does not exist
    방법.Way.
  5. 제1 항에 있어서, 상기 코어 앤티티는 MME(mobility management entity)를 포함하되,The method of claim 1, wherein the core entity includes a mobility management entity (MME),
    상기 MME는 핸드 오버 대상이 되는 엔티티The MME is an entity subject to handover
    를 포함하는 방법.How to include.
  6. 무선 통신 시스템에서 코어 엔티티(entity)의 방법에 있어서, 상기 방법은In a method of a core entity in a wireless communication system, the method
    단말 무선 능력 식별자(UE radio capability ID)와 연관된 단말 무선 능력 정보를 포함하는 TAU(tracking area update) 요청 메시지를 단말로부터 수신하는 단계;Receiving a tracking area update (TAU) request message including terminal radio capability information associated with a UE radio capability ID from the terminal;
    상기 단말 무선 능력 정보에 기초하여 단말 무선 능력 식별자 정보의 요청을 위한 보안 모드 명령 메시지(security mode command message)를 상기 단말에게 전송하는 단계; 및Transmitting a security mode command message for requesting terminal radio capability identifier information to the terminal based on the terminal radio capability information; And
    상기 단말 무선 능력 식별자 정보를 포함하는 보안 모드 완료 메시지를 상기 단말로부터 수신하는 단계Receiving a security mode completion message including the terminal radio capability identifier information from the terminal
    를 포함하는 방법.How to include.
  7. 제6 항에 있어서, 상기 보안 모드 명령 메시지를 전송하는 단계는The method of claim 6, wherein transmitting the security mode command message
    상기 코어 엔티티에서 가용한 단말 무선 능력 식별자에 대한 정보에 기초하여 상기 보안 모드 명령 메시지를 상기 단말에게 전송하는 단계Transmitting the security mode command message to the terminal based on information on the terminal radio capability identifier available in the core entity
    를 포함하는 방법.How to include.
  8. 제6 항에 있어서, 상기 단말 무선 능력 정보는The method of claim 6, wherein the terminal radio capability information is
    상기 단말이 상기 단말 무선 능력 식별자를 지원하는 것을 나타내는 비트 정보Bit information indicating that the terminal supports the terminal radio capability identifier
    를 포함하는 방법.How to include.
  9. 제7 항에 있어서, 상기 코어 엔티티에서 가용한 상기 단말 무선 능력 식별자에 대한 상기 정보는The method of claim 7, wherein the information on the terminal radio capability identifier available in the core entity is
    상기 코어 엔티티에서 가용한 상기 단말 무선 능력 식별자가 존재하지 않는 것을 나타내는 Indicating that the terminal radio capability identifier available in the core entity does not exist
    방법.Way.
  10. 제6 항에 있어서, 상기 코어 엔티티는 MME(mobility management entity)를 포함하되,The method of claim 6, wherein the core entity includes a mobility management entity (MME),
    상기 MME는 핸드 오버 대상이 되는 엔티티The MME is an entity subject to handover
    를 포함하는 방법.How to include.
  11. 무선 통신 시스템에서 단말에 있어서, 상기 단말은In a terminal in a wireless communication system, the terminal
    트랜시버; 및Transceiver; And
    상기 트랜시버를 통해, 단말 무선 능력 식별자(UE radio capability ID)와 연관된 단말 무선 능력 정보 포함하는 TAU(tracking area update) 요청 메시지를 코어 엔티티(entity)에게 전송하고,Transmitting a TAU (tracking area update) request message including terminal radio capability information associated with a UE radio capability ID to a core entity through the transceiver,
    상기 트랜시버를 통해, 상기 단말 무선 능력 정보에 기초하여 단말 무선 능력 식별자 정보의 요청을 위한 보안 모드 명령 메시지(security mode command message)를 상기 코어 엔티티로부터 수신하며,Through the transceiver, receiving a security mode command message for requesting terminal radio capability identifier information from the core entity based on the terminal radio capability information,
    상기 트랜시버를 통해, 상기 단말 무선 능력 식별자 정보를 포함하는 보안 모드 완료 메시지를 상기 코어 엔티티에게 전송하는 Transmitting a security mode completion message including the terminal radio capability identifier information to the core entity through the transceiver
    적어도 하나의 프로세서At least one processor
    를 포함하는 단말.Terminal comprising a.
  12. 제11 항에 있어서, 상기 적어도 하나의 프로세서는The method of claim 11, wherein the at least one processor
    상기 트랜시버를 통해, 상기 코어 엔티티에서 가용한 단말 무선 능력 식별자에 대한 정보에 더 기초하여 상기 보안 모드 명령 메시지를 상기 코어 엔티티로부터 수신하는Receiving the security mode command message from the core entity further based on information on the terminal radio capability identifier available in the core entity through the transceiver.
    단말.Terminal.
  13. 제11 항에 있어서, 상기 단말 무선 능력 정보는The method of claim 11, wherein the terminal radio capability information
    상기 단말이 상기 단말 무선 능력 식별자를 지원하는 것을 나타내는 비트 정보Bit information indicating that the terminal supports the terminal radio capability identifier
    를 포함하는 단말.Terminal comprising a.
  14. 제12 항에 있어서, 상기 코어 앤티티에서 가용한 상기 단말 무선 능력 식별자에 대한 상기 정보는The method of claim 12, wherein the information on the terminal radio capability identifier available in the core entity is
    상기 코어 엔티티에서 가용한 상기 단말 무선 능력 식별자가 존재하지 않는 것을 나타내는 Indicating that the terminal radio capability identifier available in the core entity does not exist
    단말.Terminal.
  15. 제11 항에 있어서, 상기 코어 앤티티는 MME(mobility management entity)를 포함하되,The method of claim 11, wherein the core entity includes a mobility management entity (MME),
    상기 MME는 핸드 오버 대상이 되는 엔티티The MME is an entity subject to handover
    를 포함하는 단말.Terminal comprising a.
PCT/KR2020/013034 2019-09-25 2020-09-25 Method and device for performing communication in wireless communication system WO2021060904A1 (en)

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